diff --git "a/combined_output_test_cases.txt" "b/combined_output_test_cases.txt" new file mode 100644--- /dev/null +++ "b/combined_output_test_cases.txt" @@ -0,0 +1,221873 @@ +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform in bench when in sleep state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Ensure that TCM is in sleep state. +3. Publish Remote AC start Command from app/cloud. + +Expected Output: +TCM shall StartEngAcCommandWakeLock with timer Par_StartEngAcCommandWakeLock & +1. Publish TM_NMPDU Message over vehicle CAN. +2.Wake up the BCM on hardwired line. +3. Set RemoteEngAcCmd = 3 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform in bench when in awake state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Ensure that TCM is in awake state. +3. Publish Remote AC start Command from app/cloud. + +Expected Output: +TCM shall StartEngAcCommandWakeLock with timer Par_StartEngAcCommandWakeLock & +1. Publish TM_NMPDU Message over vehicle CAN. +2.Wake up the BCM on hardwired line. +3. Set RemoteEngAcCmd = 3 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform in bench when in Transport Park state (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Transport Park + PowerModeState = 2 +2. Ensure that TCM is in awake state. +3. Publish Remote AC start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 3. Its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform in bench when in Keyin mode (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 3 +2. Ensure that TCM is in awake state. +3. Publish Remote AC start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 3. Its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform in bench when in Accessory mode (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 4 +2. Ensure that TCM is in awake state. +3. Publish Remote AC start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 3. Its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform in bench when in Accessory Delay mode (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 5 +2. Ensure that TCM is in awake state. +3. Publish Remote AC start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 3. Its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform in bench when in Active(Igniton ON mode) (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre IGN ON + PowerModeState = 6 +2. Ensure that TCM is in awake state. +3. Publish Remote AC start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 3. Its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform in bench when in Transport Drive (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 7 +2. Ensure that TCM is in awake state. +3. Publish Remote AC start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 3. Its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remoteAC start command from cloud platform in bench when in Engine Run (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Ensure that TCM is in awake state. +3. Publish Remote AC start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 3. Its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform in bench when in Start (Crank) (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Crank + PowerModeState = 9 +2. Ensure that TCM is in awake state. +3. Publish Remote AC start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 3. Its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform in bench when in Transport Drive Crank (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = A +2. Ensure that TCM is in awake state. +3. Publish Remote AC start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 3. Its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform in bench when in Transport Drive Run (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = B +2. Ensure that TCM is in awake state. +3. Publish Remote AC start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 3. Its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with BCMRemotePrecheck failure + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartACCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with BCMRemotePrecheck failure, REmoteUsecaseState = 0 and PowerModeState = 1 + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 +4. Check for the below signal responses RemoteEngAcCmd = 0 +StartACCommandResponse == Failed + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartACCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with PEPS failure scenario in prestandy power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Publish the below signals values on CAN + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. TCM shall export the + StartACCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with PEPS failure scenario in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Publish the below signals values on CAN + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. TCM shall export the + StartACCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with IPCRemotecheck failure scenario in prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud - RemoteEngAccmd = 3 +3. Set below signals from BCM/PEPS/FATC: + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 +4. Check for the below signal responses RemoteEngAcCmd = 0 +StartACCommandResponse == Failed + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartACCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with IPCRemotecheck failure scenario in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud - RemoteEngAccmd = 3 +3. Set below signals from BCM/PEPS/FATC: + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 +4. Check for the below signal responses RemoteEngAcCmd = 0 +StartACCommandResponse == Failed + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartACCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with IPC failure scenario in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Publish the below signals values on CAN + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartACCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with EMS failure scenario in prestandy power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Publish the below signals values on CAN + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartACCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EngStatus = 2 + Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = 25degC. 2. RemoteEngAcCmd = 3 + + RemoteAcTempSetStatus = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EngStatus = 3 + Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = RemoteAcTempSet received. 2. RemoteEngAcCmd = 3 + + RemoteAcTempSetStatus = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EngStatus = 2 + Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = 25degC. 2. RemoteEngAcCmd = 3 + + RemoteAcPvTempSetStatus = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EngStatus = 2 + Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = 25degC. 2.RemoteEngAcCmd = 3 + + RemoteAcPvTempSetStatus = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = RemoteAcTempSet received. 2. RemoteEngAcCmd = 3 + + RemoteAcPvTempSetStatus = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = 25degC. 2.RemoteEngAcCmd = 3 + + RemoteAcPvTempSetStatus = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = 25degC. 2.RemoteEngAcCmd = 3 + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = 25degC. 2.RemoteEngAcCmd = 3 + + RemoteAcPvTempSetStatus = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud + with SetTemp = 22 & SetTimer = 300 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 3 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = RemotePvTempSet + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform and BCM preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud + with SetTemp = 22 & SetTimer = 300 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +1. TCM shall export the + StartACCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform and PEPS preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 2 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +1. TCM shall export the + StartACCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform and IPC preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +1. TCM shall export the + StartACCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform and EMS preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +1. TCM shall export the + StartACCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform and RemoteUseCaseState OFF and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +1. TCM shall export the + StartACCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform and ACreq OFF and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =0 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +1. TCM shall export the + StartACCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform and RemoteACState OFF and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +1. TCM shall export the + StartACCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud with SetTemp = 18 & SetTimer = 300 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 3 to BCM, PEPS, EMS, IPC & FATC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud with SetTemp = 18 & SetTimer = 600 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 3 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud with SetTemp = 18 & SetTimer = 900 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 3 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud with SetTemp = 20 & SetTimer = 300 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 3 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud with SetTemp = 20 & SetTimer = 600 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 3 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud with SetTemp = 20 & SetTimer = 900 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 3 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud with SetTemp = 22 & SetTimer = 300 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 3 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud with SetTemp = 22 & SetTimer = 600 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 3 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud with SetTemp = 22 & SetTimer = 900 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 3 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud with SetTemp = 22 & SetTimer = 1200 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 3 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC stop command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 Acreq =0 RemoteACState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + TCM shall export remote command response as success +- Verified l TCM shall kill the EngAcOnTimer and shall publish remote AC OFF request RemoteEngAcCmd == 0 (Remote AC Start is not Active) to BCM, PEPS, EMS , IPC & FATC over CAN. + ll TCM shall export AcEvent==2 (Remote AC is off AirconditiongStopEvent) to cloud platform +- TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC stop command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 + Acreq =1 + RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StopACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as fail + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC stop command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StopACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as fail + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC stop command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StopACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as fail + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform.+E389:I389 + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 1 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StopACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as Success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC stop command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StopACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC stop command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StopACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC stop command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StopACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC stop command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 1 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StopACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as Fail + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC stop command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 Acreq =1 RemoteACState = 1 +4. Check for the below signal responses + RemoteEngAcCmd + StopACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS , IPC & FATC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM and other ECUs when remote AC start is requested through EOL tester tool in Lab car + +Pre-condition: +1. TCM should allow the remote AC start request via a EOL tester tool as a valid request + + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote AC start Command from the EOL tester tool +3. confirm the status of below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 Acreq =1 RemoteACState = 1 + StartACCommandResponse = Pass / Fail + +Expected Output: +All ECUs shall support for checking of RESS feature at EoL through tester/tool. For Ex. ECUs shall allow to start +the engine remotely when Remote AC Start Stop requested through tester/tool + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with GearShftLvrPos, CurrGearEms + BrkPressState, +AccPedPosn, +ClutPressStateEMSNew, +APbState, ParkBrkState (PP), +RCrankEnable +in within the set limits / plausible values + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - 0 + CurrGearEms - 1 + BrkPressState - 1 + AccPedPosn - 0 + ClutPressStateEMSNew - 0 + APbState - 2 + ParkBrkState (PP) - 1 + RCrankEnable - 1 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartACCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + EMS shall update EMSRemoteCheck == 1 (remote check successful), no action for TCM. + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS , IPC & FATC periodically + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC when AC gets OFF. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Set the status of following things: + RemoteAcStatus =0 + RemoteUsecaseState =3 + +Expected Output: +l TCM shall kill the EngAcOnTimer and shall publish remote AC OFF request RemoteEngAcCmd == 0 (Remote AC Start is not Active) over CAN. ll TCM shall export AcEvent==2 (Remote AC is Failed) to cloud platform + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC in Normal drive mode. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . 3.Publish Remote AC start Command from cloud platform 4. Set the status of following signals: + + RemoteUsecaseState =1 + +Expected Output: + l FATC shall turn ON the AC and shall keep functioning in Auto AC mode with the temperature set by user. (CCmHuTempWhlStatus = RemoteAcTempSet) ll FATC shall not restore the previous settings set by user before remote ac operation. 2.RemoteEngAcCmd=2 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 1 (Switch on the ignition manually and switch OFF manually then before the system goes to sleep proceed with step 2) +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 1 (Switch on the ignition manually and switch OFF manually then before the system goes to sleep proceed with step 2) +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: Acreq = 1 + RemoteAcState = 1 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep the following door open + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep the following door open + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake powermode + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awkae power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and Awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + TailgateState = 1 + DoorStateRearLH = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + TailgateState = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + TailgateState = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + TailgateState = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + BonnetState = 1 + TailgateState = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + BonnetState = 1 + DoorStateDrvr = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + BonnetState = 1 + DoorStateDrvr = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + BonnetState = 1 + DoorStateDrvr = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + BonnetState = 1 Acreq = 1 + RemoteAcState = 1 + DoorStateDrvr = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + DoorStatePass = 1 Acreq = 1 + RemoteAcState = 1 + DoorStateDrvr = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + DoorStatePass = 1 + DoorStateDrvr = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + DoorStateDrvr = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + DoorStateDrvr = 1 + DoorStateRearRH = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + DoorStatePass = 1 Acreq = 1 + RemoteAcState = 1 + DoorStateDrvr = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + DoorStatePass = 1 Acreq = 1 + RemoteAcState = 1 + DoorStateDrvr = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + DoorStatePass = 1 Acreq = 1 + RemoteAcState = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + DoorStatePass = 1 Acreq = 1 + RemoteAcState = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + DoorStatePass = 1 Acreq = 1 + RemoteAcState = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + DoorStatePass = 1 Acreq = 1 + RemoteAcState = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + DoorStateRearLH = 1 Acreq = 1 + RemoteAcState = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + DoorStateRearLH = 1 Acreq = 1 + RemoteAcState = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + BonnetState = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + BonnetState = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateDrvr = 1 + TailgateState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateDrvr = 1 + TailgateState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStateDrvr = 1 + DoorStatePass = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStateDrvr = 1 + DoorStatePass = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearRH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearRH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door close but unlocked condition in prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Disconnect the ignition line +3. Publish Remote AC start Command from app/cloud. +4. Leave all of the door closed but not locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 3 +5. Check for the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 2 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: +If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState +== 0 to applicable ECU's informing about Remote Ac Feature is turned off + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door close but unlocked condition in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Disconnect the ignition line +3. Publish Remote AC start Command from app/cloud. +4. Leave all of the door closed but not locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 3 +5. Check for the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 2 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: +If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState +== 0 to applicable ECU's informing about Remote Ac Feature is turned off + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with Steering unlocked condition in prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep steering unlock by providing the following value to the signal + LockStateESCL = 0 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed with reason - steering not locked etc. +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with Steering unlocked condition in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake (Toggle the ignition switch and before the CAN bus goes to sleep) + Ensure the PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep steering unlock by providing the following value to the signal + LockStateESCL = 0 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed with reason - steering not locked etc. +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with Steering unlocked condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep steering of the vehicle in locked condition + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +PEPS shall check for battery voltage and if it is above 9V +1. PEPS shall publish the PEPSRemoteCheck == 1 to TCM and turn on the Ignition relay control. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform when the steering is in locked state and the battery voltage is above 9V + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep all the door signals in closed state +4. Keep the steering in lock state and battery voltage above 9V +4. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +PEPS shall check for steering lock condition and if it is locked then +1. PEPS shall publish the PEPSRemoteCheck == 1 to TCM and turn on the Ignition relay control. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform . + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. Ensure that the Remote AC start event is successful in vehicle along with power mode state transition from 0 to 6 to 8 +4. Post confirmation, Publish StopEngAcCommand from cloud/app within expiry of EngAcOnTimer. + +Expected Output: +TCM shall +1. Publish RemoteEngAcCmd = 0 +2. Kill EngAcOnTimer + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on successful remote AC start command from cloud platform and till the expiry of EngAconTimer . + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Wait for expiry of EngAcOnTimer. + +Expected Output: +1.TCM shall Publish + RemoteEngAcCmd = 0 +2. TCM shall update the user about end of Remote Ac Feature through platform after successful Ignition Off. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform when remoteusecase status signal is implausible + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 2 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 + Acreq = 1 + RemoteAcState = 1 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform when remoteusecase status signal is not available + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform when remoteusecase status signal is correct + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 2 + EMSRemoteCheck = 1 + Acreq = 1 + RemoteAcState = 1 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 3 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform when IPCRemoteCheckStatus status signal is not available + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 3 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform when IPCRemoteCheckStatus status signal is implausible + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 2 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform when IPCRemoteCheckStatus status signal is correct + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 3 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform when EMSRemoteCheckStatus status signal is implausible + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 2 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform when EMSRemoteCheckStatus status signal is not available + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 3 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform when EMSRemoteCheckStatus status signal is correct + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 3 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 3 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with low fuel level + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud - RemoteEngAccmd = 3 +3. Leave the fuel level in the Labcar as low (LowFuelOutputIC = 1) +4. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 +5. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with non zero vehicle speed value + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. Set the vehicle speed at more than 0 Kmph (eg: 10Kmph) in the Labcar (VehSpdIC) +4. Check for the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with Epb not in locked state in bench + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud - RemoteEngAccmd = 3 +3. Disengage the park brake by tranmistting APbState !=2 +4. check the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with EPB error + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. Disengage the park brake by tranmistting APbErrorState != 1 +4. check the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform, when Fuel level is low and vehicle speed is non zero + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 +4. Change the status of fuel level and vehicle speed as follows + LowFuelOutputIC = 1 + VehSpdIC != 0 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform, when Fuel level is low and Epb state is not locked + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 +4. Change the status of fuel level and vehicle speed as follows + LowFuelOutputIC = 1 + APbState != 2 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform, when Fuel level is low and Epb is in error state + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 +4. Change the status of fuel level and vehicle speed as follows + LowFuelOutputIC = 1 + APbErrorState != 1 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform, when Fuel level is low and park brake is OFF + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 +4. Change the status of fuel level and vehicle speed as follows + LowFuelOutputIC = 1 + ParkBrkState == 0 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform, when vehicle speed is non zero and Epb state is not locked + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 +4. Change the status of fuel level and vehicle speed as follows + VehSpdIC != 0 + APbState != 2 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform, when vehicle speed is non zero and Epb is in error state + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 +4. Change the status of fuel level and vehicle speed as follows + VehSpdIC != 0 + APbErrorState != 1 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform, when vehicle speed is non zero and park brake is OFF + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 +4. Change the status of fuel level and vehicle speed as follows + VehSpdIC != 0 + ParkBrkState == 0 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform, when Epb is not locked and Epb is in error state + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 +4. Change the status of fuel level and vehicle speed as follows + APbState != 2 + APbErrorState != 1 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform, when Fuel level is low, vehicle speed is non zero, Epb is not locked + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 +4. Change the status of fuel level and vehicle speed as follows + LowFuelOutputIC = 1 + VehSpdIC != 0 + APbState != 2 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform, when Fuel level is low, vehicle speed is non zero, Epb is not locked and EPB is in error state + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 +4. Change the status of fuel level and vehicle speed as follows + LowFuelOutputIC = 1 + VehSpdIC != 0 + APbState != 2 + APbErrorState != 1 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform, when Fuel level is low, vehicle speed is non zero, park brake is not engaged + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 +4. Change the status of fuel level and vehicle speed as follows + LowFuelOutputIC = 1 + VehSpdIC != 0 + ParkBrkState == 0 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with normal fuel level, zero vehicle speed and park brake engaged + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. Disengage the park brake by tranmistting + ParkBrkState == 1 + VehSpdIC = 0 + LowFuelOutputIC = 0 +4. check the below signals : + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 3 Acreq = 1 + RemoteAcState = 1 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If received signal status from IPC is successful as well as PowerModeState (Ignition On), TCM shall send RemoteEngAcCmd +== 1 signal periodically to BCM & PEPS to keep the Ignition ON relay remotely active. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with normal fuel level, zero vehicle speed and EPB is in locked condition without any error + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. Disengage the park brake by tranmistting + APbErrorState = 1 + APbState = 2 + VehSpdIC = 0 + LowFuelOutputIC = 0 +4. check the below signals: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 3 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If received signal status from IPC is successful as well as PowerModeState (Ignition On), TCM shall send RemoteEngAcCmd +== 1 signal periodically to BCM & PEPS to keep the Ignition ON relay remotely active. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing Remote AC start operation when an abusive usecase is performed in bench / labcar +(Gear position status signal is implausible) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. Change the current gear / Gear shift lever position value +MT - CurrGearEmsStatus = 2 (Implausible) +AT- GearShftLvrPosStatus = 2 (Implausible) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +Remote Ac Feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing Remote AC start operation when an abusive usecase is performed in vehicle +(break pedal is pressed) with a valid door status change and key Fob presence inside the Labcar area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. Perform the user entry with the help of a door transition with door unlock using KeyFob +5. Post which change the break pedal press state to pressed state (BrkPressState = 0) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +Remote Ac Feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing Remote AC start operation when an abusive usecase is performed in vehicle +(break pedal is pressed) without a valid door status change and key Fob presence outside the Labcar area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. Without performing door status change, change the break pedal press state to pressed state (BrkPressState = 0) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +Remote Ac Feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing Remote AC start operation when an abusive usecase is performed in vehicle +(Brake pedal position status is implausible) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. Change the break pedal position status is implausible +(BrkPressStatus = 2) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +Remote Ac Feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with igniton ON and engine speed > 0rpm + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote AC start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +4. Immediately publish another remote command from the cloud platform , by not sending the response of the first event back to the cloud +5. Check for the status of the response + +Expected Output: +The second command shall not be available for user selection, even if provided by chance it shall fail without affecting the previous remote operation + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when a door open event is occuring during the execution of Remote AC start event + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from cloud platform +3. Immediately after the SMS Wake up is confirmed in the system, perform a door open event +4. confirm the status of below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Check for the status of the response + +Expected Output: +The moment the door open event is observed during the execution of Remote AC start operation, if valid key Fob prescence is not detected +Then + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 +PEPS shall turn off the Ignition Relay and TCM shall monitor PowerModeState signal to understand vehicle state. + +======================================== + +======================================== + +Test Description: +To test the behaviour of BCM during the successful execution of Remote AC start event in labcar + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Check for the status of Hazard in vehicle +6.Monitor the status of power mode as well whether it has changed from 0 to 6 to 8 + +Expected Output: +Hazard should flash for 3 time on vehicle within 30 secs to acknowledge the successful Remote AC start +operation by monitoring PowerModeState signal + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when the Remote AC start command is received from cloud platform but the feedback / response is not updated to the cloud + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS/FATC/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Before sending the response to the cloud, disconnect the connection to the network by removing the network antenna from the Telematics unit +6.Check for the status messages / update on the mobile app + +Expected Output: +The mobile app shall wait for a defined timeout period and shall update the feedback not received from device message to the user + + +All the command buttons shall be disabled until the feedback is received from the telematics unit + +The Telematics unit shall continuously retry to deliver the remote start response back to the cloud at the first instance of network reconnection + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = RemoteAcTempSet received. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 1 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = 25degC. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 2 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = 25degC. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 3 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = 25degC. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall switch to OFF mode with blower OFF. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EngStatus = 2 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = RemoteAcTempSet received. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EngStatus = 3 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = RemoteAcTempSet received. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EngStatus = 2 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 2 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = 25degC. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC when AC gets OFF. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Set the status of following things: + RemoteAcStatus =0 + RemoteUsecaseState = 3 + +Expected Output: +l TCM shall kill the EngAcOnTimer and shall publish remote AC OFF request RemoteEngAcCmd == 0 (Remote AC Start is not Active) over CAN. ll TCM shall export AcEvent==2 (Remote AC is Failed) to cloud platform + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC in Normal drive mode. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . 3.Publish Remote AC start Command from cloud platform 4. Set the status of following signals: + RemoteEngAcCmd=2 + RemoteUsecaseState =1 + +Expected Output: +l FATC shall turn ON the AC and shall keep functioning in Auto AC mode with the temperature set by user. (CCmHuTempWhlStatus = RemoteAcTempSet) ll FATC shall not restore the previous settings set by user before remote ac operation. + + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform to vehicle when it is in awake state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Switch ON the ignition of the vehicle +2. Leave the system as such for a min +3. Switch OFF the ignition +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 1 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote AC start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall StartEngAcCommandWakeLock with timer Par_StartEngAcCommandWakeLock & +1. Publish TM_NMPDU Message over vehicle CAN. +2.Wake up the BCM on hardwired line. +3. Set RemoteEngAcCmd = 3 +4. The AC shall start as all the prechecks of BCM, IPC, EMS and FATC will pass + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the vehicle in IGN OFF state +2. Ensure that TCM is in sleep state and Powermode is 0 +3. Publish Remote AC start Command from app/cloud. + +Expected Output: +TCM shall StartEngAcCommandWakeLock with timer Par_StartEngAcCommandWakeLock & +1. Publish TM_NMPDU Message over vehicle CAN. +2.Wake up the BCM on hardwired line. +3. Set RemoteEngAcCmd = 3 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform to vehicle when it is in awake state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Switch ON the ignition of the vehicle +2. Leave the system as such for a min +3. Switch OFF the ignition +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 1 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote AC start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall StartEngAcCommandWakeLock with timer Par_StartEngAcCommandWakeLock & +1. Publish TM_NMPDU Message over vehicle CAN. +2.Wake up the BCM on hardwired line. +3. Set RemoteEngAcCmd = 3 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform to vehicle when it is in Transport Park state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the precondition to leave the system in Transport park state +2. Check the activity of messages on CAN +3. Confirm the status of PowerModeState = 2 +4. Close all the doors, keep the vehicle in neutral / parl mode +5. Engage the park gear +6. Perform the remote AC start operation from mobile app +7. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform to vehicle when it is in KeyIn state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole / place it near the Start stop push button +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 3 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote AC start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform to vehicle when it is in Accessory state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the position before ignition (where Accessory loads are getting turned ON) +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 4 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote AC start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform to vehicle when it is in Accessory delay state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Ensure the preconditions are met to keep the vehicle in Accessory delay mode +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 5 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote AC start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform to vehicle when it is in Ignition ON state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position or +3. Place the keyFob near to the start stop button switch and push the button to turn on the ignition +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 6 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote AC start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform to vehicle when it is in Transport Drive state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Ensure the preconditions are met to keep the vehicle in Transport Drive mode +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 7 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote AC start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform to vehicle when it is in Engine Run state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Crank the engine successfully and change the drive position to drive / Change the gear from neutral and start driving the vehicle +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 8 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote AC start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform to vehicle when it is in Crank state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Crank the engine +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 9 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote AC start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform to vehicle when it is in Transport Drive crank state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Ensure the preconditions are met for achieving Transport drive crank state +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = A +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote AC start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote AC start command from cloud platform to vehicle when it is in Transport Drive run state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Ensure the preconditions are met for achieving Transport drive run state +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = B +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote AC start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby / awake + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened during the execution of the remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Ensure all the prechecks from BCM, IPC and PEPS are successful +4. Confirm that the vehicle CAN is awake upon the reception of the Remote AC start command by the TCU +5. During the execution of the command in the vehicle, unlock the vehicle +6. Open the driver side door + DoorStateDrvr = 1 +7. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass Acreq = 1 + RemoteAcState = 1 +4. After successful remote start operation, check for the presence of Key + DoorStateDrvr = 1 +5. Check for the status of the remote operation + + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened during the execution of the remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby/Awake + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Ensure all the prechecks from BCM, IPC and PEPS are successful +4. Confirm that the vehicle CAN is awake upon the reception of the Remote AC start command by the TCU +5. During the execution of the command in the vehicle, unlock the vehicle +6. Open the following door + DoorStatePass = 1 +7. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, keep the following door open + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby/Awake + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Keep the following door open + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened during the execution of the remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Ensure all the prechecks from BCM, IPC and PEPS are successful +4. Confirm that the vehicle CAN is awake upon the reception of the remote AC start command by the TCU +5. During the execution of the command in the vehicle, unlock the vehicle +6. Open the following door + DoorStatePass = 1 +7. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, keep the following door open + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby/Awake + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Keep the following door open + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened during the execution of the remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Ensure all the prechecks from BCM, IPC and PEPS are successful +4. Confirm that the vehicle CAN is awake upon the reception of the Remote AC start command by the TCU +5. During the execution of the command in the vehicle, unlock the vehicle +6. Open the following door + DoorStateRearLH = 1 +7. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following door + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby/Awake + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened during the execution of the remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Ensure all the prechecks from BCM, IPC and PEPS are successful +4. Confirm that the vehicle CAN is awake upon the reception of the remote AC start command by the TCU +5. During the execution of the command in the vehicle, unlock the vehicle +6. Open the following door + TailgateState = 1 +7. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby/Awake + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened during the execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Ensure all the prechecks from BCM, IPC and PEPS are successful +4. Confirm that the vehicle CAN is awake upon the reception of the Remote AC start command by the TCU +5. During the execution of the command in the vehicle, unlock the vehicle +6. Open the following door + BonnetState = 1 +7. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby/awake + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearRH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + DoorStateRearRH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby/Awake + PowerModeState = 0/1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearLH = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearLH = 1 + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + TailgateState = 1 + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote AC feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RAC feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearLH = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStatePass = 1 + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + TailgateState = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + TailgateState = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + TailgateState = 1 + BonnetState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + TailgateState = 1 + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateRearLH = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + BonnetState = 1 + TailgateState = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + BonnetState = 1 + DoorStateDrvr = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + BonnetState = 1 + DoorStateDrvr = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + BonnetState = 1 Acreq = 1 + RemoteAcState = 1 + DoorStateDrvr = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearLH = 1 + BonnetState = 1 + DoorStateDrvr = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + DoorStatePass = 1 + DoorStateDrvr = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearLH = 1 + DoorStatePass = 1 + DoorStateDrvr = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + DoorStateDrvr = 1 + DoorStateRearRH = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + TailgateState = 1 + DoorStateDrvr = 1 + DoorStateRearRH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + DoorStatePass = 1 Acreq = 1 + RemoteAcState = 1 + DoorStateDrvr = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + TailgateState = 1 + DoorStatePass = 1 + DoorStateDrvr = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + TailgateState = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + DoorStatePass = 1 Acreq = 1 + RemoteAcState = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + BonnetState = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + DoorStateRearLH = 1 + DoorStateRearRH = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + BonnetState = 1 + DoorStateRearLH = 1 + DoorStateRearRH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 Acreq = 1 + RemoteAcState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + BonnetState = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + TailgateState = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation Acreq = 1 + RemoteAcState = 1 + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearRH = 1 + BonnetState = 1 + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + BonnetState = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + BonnetState = 1 + DoorStateRearLH = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateDrvr = 1 + TailgateState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateDrvr = 1 + TailgateState = 1 + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby /Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 Acreq = 1 + RemoteAcState = 1 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + DoorStatePass = 1 +5. Check for the status of the remote operation Acreq = 1 + RemoteAcState = 1 + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStateDrvr = 1 + DoorStatePass = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation Acreq = 1 + RemoteAcState = 1 + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearRH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the Remote AC start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearRH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + + If the Keyfob presence is not detected then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off Remote Ac Feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + + If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with door close but unlocked condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Disconnect the ignition line +3. Publish Remote AC start Command from app/cloud. +4. Leave all of the door closed but not locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 3 +5. Check for the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: +If any of the door status is Open (Vehicle is not locked), BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState +== 0 to applicable ECU's informing about Remote Ac Feature is turned off + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked using Keyfob during the execution of the Remote AC start command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote AC start Command from app/cloud. +4. Leave all of the door closed and locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 1 +5. Ensure the below signals from BCM/PEPS/FATC/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +6. During the execution of the remote start operation, unlock the vehicle doors using keyfob + VehicleLockState = 3 +7. Check for the status of the remote operation + +Expected Output: +The system shall check compare the BCMRemotePrecheck status update with respect to the vehicle unlock event + + If the unlock event has occured before the BCMRemotePrecheck value update on CAN, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off + + + If the unlock event has occured after the BCMRemotePrecheck value update on CAN as passed and operation is successful, TCM shall look for the door open event followed by KeyFob prescence inside the vehicle to enable PEPS to come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked from the inside (Without input from Keyfob) during the execution of the Remote AC start command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote AC start Command from app/cloud. +4. Leave all of the door closed and locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 1 +5. Ensure the below signals from BCM/PEPS/FATC/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass +6. During the execution of the remote start operation, unlock the vehicle doors from the inside - master control lock of driver side door (Without Keyfob) + VehicleLockState = 3 +7. Check for the status of the remote operation + +Expected Output: +The system shall trigger unauthorized vehicle entry alert to the cloud as the vehicle is being unlocked without the input of Keyfob + + TCM, on receiving feature disable request from any ECU (Req 46), shall Update RemoteEngAcCmd == 0 to BCM and PEPS to indicate them to turn off Remote Ac Feature. + + TCM Shall kill the existing EngAcOnTimer timer. + + TCM shal l update the user about end of Remote Ac Feature after successful Ignition Off through platform whenever feature disable request is received from any ECU . TCM shall send response to cloud indicating feature is disabled due to BCM RemoteUsecaseState ,,)), IPC IPC RemoteCheck ) or EMS EMSRemoteCheck ) + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked using Keyfob after successful execution of the Remote AC start command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote AC start Command from app/cloud. +4. Leave all of the door closed and locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 1 +5. Ensure the below signals from BCM/PEPS/FATC/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +6. After the successful execution of the remote start operation, unlock the vehicle doors using keyfob + VehicleLockState = 3 +7. Check for the status of the remote operation + +Expected Output: +The system shall check compare the BCMRemotePrecheck status update with respect to the vehicle unlock event + + If the unlock event has occured before the BCMRemotePrecheck value update on CAN, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Ac Feature is turned off + + + If the unlock event has occured after the BCMRemotePrecheck value update on CAN as passed and operation is successful, TCM shall look for the door open event followed by KeyFob prescence inside the vehicle to enable PEPS to come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked from the inside (Without input from Keyfob) after successful execution of the Remote AC start command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote AC start Command from app/cloud. +4. Leave all of the door closed and locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 1 +5. Ensure the below signals from BCM/PEPS/FATC/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +6. After the successful execution of the remote start operation, unlock the vehicle doors from the inside - master control lock of driver side door (Without Keyfob) + VehicleLockState = 3 +7. Check for the status of the remote operation + +Expected Output: +The system shall trigger unauthorized vehicle entry alert to the cloud as the vehicle is being unlocked without the input of Keyfob + + TCM, on receiving feature disable request from any ECU (Req 46), shall Update RemoteEngAcCmd == 0 to BCM and PEPS to indicate them to turn off Remote Ac Feature. + + TCM Shall kill the existing EngAcOnTimer timer. + + TCM shal l update the user about end of Remote Ac Feature after successful Ignition Off through platform whenever feature disable request is received from any ECU . TCM shall send response to cloud indicating feature is disabled due to BCM RemoteUsecaseState ,,)), IPC IPC RemoteCheck ) or EMS EMSRemoteCheck ) + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with Steering unlocked condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep steering of the vehicle in unlocked condition + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed with reason - steering not locked etc. +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with Steering unlocked condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep steering of the vehicle in locked condition + to set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +PEPS shall check for battery voltage and if it is above 9V +1. PEPS shall publish the PEPSRemoteCheck == 1 to TCM and turn on the Ignition relay control. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform when the steering is in locked state and the battery voltage is above 9V + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Keep all the door signals in closed state +4. Keep the steering in lock state and battery voltage above 9V +4. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +PEPS shall check for steering lock condition and if it is locked then +1. PEPS shall publish the PEPSRemoteCheck == 1 to TCM and turn on the Ignition relay control. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform when all the signals are within the boundary limits in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheck = 1 +4. CHeck for Powermode = 6 (IGN ON) +5. Check for successful Engine turn ON i.e. + Engine Speed(EngSpd) != 0 and Power mode = 8 + + +Expected Output: +1. TCM shall export the + RemoteEngAcCmd = 3 +2. TCM shall start an EngAcOnTimer with SetTimer value internally. +If all ECUs remote pre-conditions ok , PEPS shall take 5 seconds to crank the vehicle Powermode state to be changed to engine run and command response success shall be exported to cloud/app + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform in vehicle and allow it to run for the set time + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Set below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 +4. Check for successful Engine turn ON i.e. + Engine Speed(EngSpd) != 0 +5. Wait for the engine to run till the set timer + + +Expected Output: +1. TCM shall export the + RemoteEngAcCmd = 3 +2. TCM shall start an EngAcOnTimer with SetTimer value internally. +3. Post expiry of EngAcOnTimer (i.e. SetTimer is reached), TCM shall publish RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote AC start command from cloud platform . + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. Ensure that the Remote AC start event is successful in vehicle along with power mode state transition from 0 to 6 to 8 +4. Post confirmation, Publish StopEngAcCommand from cloud/app within expiry of EngAcOnTimer. + +Expected Output: +TCM shall +1. Publish RemoteEngAcCmd = 0 +2. Kill EngAcOnTimer + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on successful remote AC start command from cloud platform and till the expiry of EngAconTimer . + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. +3. Wait for expiry of EngAcOnTimer. + +Expected Output: +1.TCM shall Publish + RemoteEngAcCmd = 0 +2. TCM shall update the user about end of Remote Ac Feature through platform after successful Ignition Off. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform to validate the TCM Precheck on the timer + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud. + +Expected Output: +TCM shall StartEngAcCommandWakeLock with timer Par_StartEngAcCommandWakeLock & +1. Publish TM_NMPDU Message over vehicle CAN. +2.Wake up the BCM on hardwired line. +3. Set RemoteEngAcCmd = 3 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform in IGN ON condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the vehicle in IGN ON condition +2. Publish Remote AC start Command from app/cloud. +3. Check the below signals from TCM: + RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: +TCM, if Ignition is ON (as per TCM's Ignition Hardwire input), shall ignore the command from platform and shall send +StartEngCommandResponse == Failed as per TMCVP to cloud over GSM/GPRS communication. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with low fuel level in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the vehicle ignition as OFF +2. Publish Remote AC start Command from app/cloud +4. Leave the fuel level in the vehicle as low +5. check the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 Acreq = 1 + RemoteAcState = 1 +6. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving Remote AC start command from cloud platform with non zero vehicle speed and park brake not engaged in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote AC start Command from app/cloud +3. Disengage the park brake, Set the vehicle speed at more than 0 Kmph (eg: 10Kmph) in the vehicle by free rolling the vehicle +4. check the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 3 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of PEPS on receiving Remote AC start command from TCM with + +IPCRemoteCheck == 1 (VehSpdIC, VehSpdICStatus, APbState,ParkBrkState, LowFuelOutputIC, LowFuelOutputICStatus is within the pluasible limits) + +RemoteUsecaseState == 3 (All conditions of door, tailgate and bonnet are within the plausible limits) + +EMSRemoteCheck == 1 (Clutch, Acc.Pedal, Brake and Gear position, Crank enable status are within the plausible limits) + +RemoteEngAccmd = 3 (ignition is off) + + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Transmit the following messages + GearShftLvrPos = 0 + CurrGearEms - 1 + BrkPressState - 1 + AccPedPosn - 0 + ClutPressStateEMSNew - 0 + APbState - 2 + ParkBrkState (PP) - 1 + RCrankEnable - 1 + VehSpdIC = 0 + LowFuelOutputIC = 0 + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState = 0 + BonnetState = 0 + LockState = 1 +3. Publish Remote AC start Command from app/cloud +4. check the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = passed + +Expected Output: +PEPS shall wait for 5 seconds before sending the crank pulse to EMS. +Engine shall turn ON + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing Remote AC start operation when an usecase is performed in vehicle +(Gear position not in neutral / Park mode) with a valid door status change and key Fob presence inside the vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + PowerModeState = 6 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 Acreq = 1 + RemoteAcState = 1 + StartEngCommandResponse = Pass + Engine running condition +4. Perform the user entry with the help of a door transition with door unlock using KeyFob +5. Change the current gear / Gear shift lever position value +MT - CurrGearEms != 1 +AT- GearShftLvrPos != 0 + +Expected Output: +Till the RemoteEngAccmd = 3 signal is received from TCM, PEPS shall +1. Monitor Key +2. If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) and update BCM about +the key status +3. PEPS shall come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing Remote AC start operation when an abusive usecase is performed in vehicle +(Gear position not in neutral / Park mode) without a door status change and key Fob presence + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + PowerModeState = 6 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass + Engine running condition +4. Without performing door status change, change the current gear / Gear shift lever position value +MT - CurrGearEms != 1 +AT- GearShftLvrPos != 0 + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +Remote Ac Feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing Remote AC start operation when an usecase is performed in bench / labcar +(break pedal is pressed) with a Valid door status change and KeyFob prescence inside the vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. Perform the user entry with the help of a door transition with door unlock using KeyFob +5. Change the break pedal press state to +BrkPressState = 0 + +Expected Output: +Till the RemoteEngAccmd = 3 signal is received from TCM, PEPS shall +1. Monitor Key +2. If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) and update BCM about +the key status +3. PEPS shall come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing Remote AC start operation when an abusive usecase is performed in vehicle +(break pedal is pressed) without a Valid door status and KeyFob prescence inside the vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is off +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. Without performing dorr status change, change the break pedal press state to pressed state (BrkPressState = 0) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +Remote Ac Feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing Remote AC start operation when a valid keyFob presence is detected in the vehcile with change in door status + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, check for the presence of Key + DoorStateDrvr = 1 + KeyInState = 1 + + + +Expected Output: + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing Remote AC start operation when a valid keyfob presence is detected in the vehicle without any door status change + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote AC start Command from app/cloud +3. Ensure the below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + StartEngCommandResponse = Pass +4. After successful remote start operation, check for the presence of Key with all the doors closed + KeyInState = 1 +5. Confirm the Status of Remote start operation + + + +Expected Output: + If valid key In is detected without a change in door status i.e. valid user not detected, then PEPS shall look for the door status change + If any action is done in the vehicle after the KeyFob presence alone without any door status change then TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer to indicate other ECU's to turn off Remote Ac Feature. + + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when manual overide event of the start stop push button is observed during the execution of Remote AC start event (Keyfob not present in the vehicle) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Post the execution / during the execution of the Remote AC start operation click on the push button (Start stop) +6. Observe the response in the system + +Expected Output: +The system shall ignore the manual override request as the Keyfob prescene is not detected in the vehicle + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when manual overide event of the start stop push button is observed during the execution of Remote AC start event (Keyfob present in the vehicle) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 Acreq = 1 + RemoteAcState = 1 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Post the execution / during the execution of the Remote AC start operation click on the push button (Start stop) with Keyfob present inside the vehicle +6. Observe the response in the system + +Expected Output: +The system shall consider the manual override and shall terminate the current ongoing operation + +The response shall be sent as successful as the operation is getting overridden after the successful execution + +The end user mobile app shall as well have all the command buttons enabled for further operation + +======================================== + +======================================== + +Test Description: +To test the behaviour of BCM during the successful execution of Remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Check for the status of Hazard in vehicle +6.Monitor the status of power mode as well whether it has changed from 0 to 6 to 8 + +Expected Output: +Hazard should flash for 3 time on vehicle within 30 secs to acknowledge the successful Remote AC start +operation by monitoring PowerModeState signal + +======================================== + +======================================== + +Test Description: +To test the behaviour of BCM, TCM and IPC during the door open event with valid key Fob prescence after a successful execution of Remote AC start event + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS/FATC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 Acreq = 1 + RemoteAcState = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Perform a door open event with a valid keyfob presence inside the vehicle +6.Check for the status messages from BCM,TCM and IPC + RemoteUsecaseState + IPCRemoteCheck + RemoteEngAcCmd + +Expected Output: + If valid Key In status feedback received from PEPS and valid door/tailgate transition, BCM shall change +RemoteUsecaseState == 1 and share it with TCM, PEPS, EMS, IPC and HU for informing ECU's about start working as +normal Drive and ignore Remote Command precondition checks. + + After receiving RemoteUsecaseState == 1 from BCM, TCM should change RemoteEngAcCmd == 2 (Default) i.e. default state for informing +ECU's about end of Remote Ac Feature (deactive) and start working as normal drive. + + After receiving RemoteUsecaseState == 1 && RemoteEngAcCmd == 2 (Default) from BCM and TCM respectively, IPC should change +IPCRemoteCheck == 0 i.e. default state/normal running mode. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when a remote start event is converted into normal driving mode and stop command is provided + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote AC start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS/FATC/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 Acreq = 1 + RemoteAcState = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. POst confirmation of the Remote AC start, open the driver door and enter the vehicle with KeyFob +6. Change the gear from park / neutral to drive / 1st gear +7. Try pushing the stop command from the cloud platform to the TCM + +Expected Output: +TCM shall ignore the command as the vehicle drive mode changed from remote mode to normal mode + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = RemoteAcTempSet received. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 1 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = 25 degC. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 2 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = 25 degC. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 3 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = 25 degC. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall switch to OFF mode with blower OFF. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EngStatus = 2 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 0 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = RemoteAcTempSet received. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EngStatus = 3 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 0 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = RemoteAcTempSet received. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following signals: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EngStatus = 2 + RemoteEngAcCmd = 3 + RemoteUseCaseState =3 + RemoteAcTempSetStatus = 2 Acreq = 1 + RemoteAcState = 1 + +Expected Output: +l FATC shall turn ON the AC with publishing AcReq=1 to EMS over CAN with CCmHuTempWhlStatus = 25degC. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful/ unsucessful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4.Set the ambient temperature > 5degC. 5. Check the status of following signals: + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + RemoteEngAcCmd =3 + EngStatus = 2 + AcCmprStatus = 1 + AcReq = 1 + + +Expected Output: +l FATC shall Publish RemoteAcStatus =0(Remote AC OFF ) to TCM periodically if the signals value did not match + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful/ unsucessful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4.Set the ambient temperature < 3degC. 5. Check the status of following signals: + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + RemoteEngAcCmd =3 + EngStatus = 2 + AcCmprStatus = 0 + AcReq = 0 + + +Expected Output: +l FATC shall Publish RemoteAcStatus =1 to TCM periodically + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful/ unsucessful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4.Set the ambient temperature < 3degC. 5. Check the status of following signals: + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + RemoteEngAcCmd =3 + EngStatus = 2 + AcCmprStatus = 0 + AcReq = 0 + + +Expected Output: +l FATC shall Publish RemoteAcStatus =0 (Remote AC OFF)to TCM periodically if following signals value did not match. + +======================================== + +======================================== + +Test Description: +To test the behaviour of Comfort state in the vehicle after sucessful AC ON request. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following things: + RemoteAcStatus =1 + (CCmHuTempWhlStatus - VehicleInteriorTemp) <= ±5 DegC + +Expected Output: +l FATC shall publish ComfortState =1 (Comfort level reached) ll TCM shall monitor the comfort state and take the decision for Remote AC functionality. + +======================================== + +======================================== + +Test Description: +To test the behaviour of Comfort state in the vehicle after sucessful AC ON request. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Check the status of following things: + RemoteAcStatus =1 + (CCmHuTempWhlStatus - VehicleInteriorTemp) > ±5 DegC + +Expected Output: +l FATC shall publish ComfortState =0 (Comfort level not reached) ll TCM shall monitor the comfort state and take the decision for Remote AC functionality. + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC when AC gets OFF. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4. Set the status of following things: + RemoteAcStatus =0 + RemoteUsecaseState = 3 + +Expected Output: +l TCM shall kill the EngAcOnTimer and shall publish remote AC OFF request RemoteEngAcCmd == 0 (Remote AC Start is not Active) over CAN. ll TCM shall export AcEvent==2 (Remote AC is Failed) to cloud platform + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC in Normal drive mode. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . 3.Publish Remote AC start Command from cloud platform 4. Set the status of following signals: + RemoteEngAcCmd=2 + RemoteUsecaseState =1 + +Expected Output: +l FATC shall turn ON the AC and shall keep functioning in Auto AC mode with the temperature set by user. (CCmHuTempWhlStatus = RemoteAcTempSet) ll FATC shall not restore the previous settings set by user before remote ac operation. + + +======================================== + +======================================== + +Test Description: +To test the behaviour of FATC during the successful/ unsucessful execution of remote AC start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Eng Run + PowerModeState = 8 +2. Turn ON the Hardwired Ignition . +3.Publish Remote AC start Command from cloud platform 4.Set the ambient temperature > 5degC. 5. Check the status of following signals: + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + RemoteEngAcCmd =3 + EngStatus = 2 + AcCmprStatus = 1 + AcReq = 1 + + +Expected Output: +l FATC shall Publish RemoteAcStatus =1(Remote AC ON ) to TCM periodically + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform in bench when in sleep state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Ensure that TCM is in sleep state. +3. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall StartEngAcCommandWakeLock with timer Par_StartEngAcCommandWakeLock & +1. Publish TM_NMPDU Message over vehicle CAN. +2. Set RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform in bench when in awake state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Ensure that TCM is in awake state. +3. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall StartEngAcCommandWakeLock with timer Par_StartEngAcCommandWakeLock & +1. Publish TM_NMPDU Message over vehicle CAN. +2. Set RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform in bench when in Active(Igniton ON mode) (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON + PowerModeState = 6 +2. Ensure that TCM is in awake state. +3. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 1. its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform in bench when in Engine Run (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 8 +2. Ensure that TCM is in awake state. +3. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 1. its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform in bench when in Start (Crank) (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Crank + PowerModeState = 9 +2. Ensure that TCM is in awake state. +3. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 1. its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform in bench when in Transport Park state (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Transport Park + PowerModeState = 2 +2. Ensure that TCM is in awake state. +3. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 1. its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform in bench when in Keyin mode (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as KeyIn + PowerModeState = 3 +2. Ensure that TCM is in awake state. +3. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 1. its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform in bench when in Accessory mode (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Accesory + PowerModeState = 4 +2. Ensure that TCM is in awake state. +3. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 1. its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform in bench when in Accessory Delay mode (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Accesory delayy + PowerModeState = 5 +2. Ensure that TCM is in awake state. +3. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 1. its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform in bench when in Transport Drive (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode asTransport drive + PowerModeState = 7 +2. Ensure that TCM is in awake state. +3. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 1. its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform in bench when in Transport Drive Crank (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Transport drive crank + PowerModeState = A +2. Ensure that TCM is in awake state. +3. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 1. its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform in bench when in Transport Drive Run (Powermode) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Transport drive Run + PowerModeState = B +2. Ensure that TCM is in awake state. +3. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall publish the Don't Care condition of the status signal. i.e RemoteEngAcCmd is not equal to 1. its sending RemoteEngAcCmd=0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with BCMRemotePrecheck failure, REmoteUsecaseState = 0 and PowerModeState = 0 + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with BCMRemotePrecheck failure, REmoteUsecaseState = 0 and PowerModeState = 1 + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with PEPS failure scenario in prestandy power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Publish the below signals values on CAN + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with PEPS failure scenario in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote Engine start Command from app/cloud. +3. Publish the below signals values on CAN + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with IPC failure scenario in prestandy power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Publish the below signals values on CAN + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with IPC failure scenario in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote Engine start Command from app/cloud. +3. Publish the below signals values on CAN + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with EMS failure scenario in prestandy power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Publish the below signals values on CAN + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with EMS failure scenario in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote Engine start Command from app/cloud. +3. Publish the below signals values on CAN + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with remoteusecase off scenario in prestandy power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Publish the below signals values on CAN + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with remoteusecase off scenario in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote Engine start Command from app/cloud. +3. Publish the below signals values on CAN + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when all the signals are within the boundary limits in prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 + PowerModeState = 8 + +Expected Output: +1. TCM shall export the + RemoteEngAcCmd = 1 +TCM shall export remote command response as success if all the ECUs remote pre-conditions passed + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when all the signals are within the boundary limits in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 + PowerModeState = 8 + +Expected Output: +1. TCM shall export the + RemoteEngAcCmd = 1 +TCM shall export remote command response as success if all the ECUs remote pre-conditions passed + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with IPCRemotecheck failure scenario in prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud - RemoteEngAcCmd == 1 +3. Set below signals from BCM/PEPS: + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 +4. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with IPCRemotecheck failure scenario in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote Engine start Command from app/cloud - RemoteEngAcCmd == 1 +3. Set below signals from BCM/PEPS: + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 +4. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos, CurrGearEms + BrkPressState, +AccPedPosn, +ClutPressStateEMSNew, +APbState, ParkBrkState (PP), +RCrankEnable +in within the set limits / plausible values + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - 0 + CurrGearEms - 1 + BrkPressState - 1 + AccPedPosn - 0 + ClutPressStateEMSNew - 0 + APbState - 2 + ParkBrkState (PP) - 1 + RCrankEnable - 1 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + EMS shall update EMSRemoteCheck == 1 (remote check successful), no action for TCM. + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 1 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and BCM preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and PEPS preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 2 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and IPC preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and EMS preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and RemoteUseCaseState OFF and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=120 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=150 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=90 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=130 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=60 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=160 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=140 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=300 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=180 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=300 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState =0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform.+E389:I389 + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM and other ECUs when remote engine start is requested through EOL tester tool in Lab car + +Pre-condition: +1. TCM should allow the remote engine start request via a EOL tester tool as a valid request + + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from the EOL tester tool +3. confirm the status of below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass / Fail + +Expected Output: +All ECUs shall support for checking of RESS feature at EoL through tester/tool. For Ex. ECUs shall allow to start +the engine remotely when Remote Engine Start Stop requested through tester/tool + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform in IGN ON condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the vehicle in IGN ON condition +2. Publish Remote Engine start Command from app/cloud. +3. Check the below signals from TCM: + RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: +TCM, if Ignition is ON (as per TCM's Ignition Hardwire input), shall ignore the command from platform and shall send +StartEngCommandResponse == Failed as per TMCVP to cloud over GSM/GPRS communication. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with low fuel level + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud - RemoteEngAcCmd == 1 +3. Leave the fuel level in the Labcar as low (LowFuelOutputIC = 1) +4. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with non zero vehicle speed value + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Set the vehicle speed at more than 0 Kmph (eg: 10Kmph) in the Labcar (VehSpdIC) +4. Check for the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with Epb not in locked state in bench + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud - RemoteEngAcCmd == 1 +3. Disengage the park brake by tranmistting APbState !=2 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with EPB error + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Disengage the park brake by tranmistting APbErrorState != 1 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when all the signals are within the boundary limits in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 +4. CHeck for Powermode = 6 (IGN ON) +5. Check for successful Engine turn ON i.e. + Engine Speed(EngSpd) != 0 and Power mode = 8 + + +Expected Output: +1. TCM shall export the + RemoteEngAcCmd = 1 +2. TCM shall start an EngAcOnTimer with SetTimer value internally. +If all ECUs remote pre-conditions ok , PEPS shall take 5 seconds to crank the vehicle Powermode state to be changed to engine run and command response success shall be exported to cloud/app + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform in vehicle and allow it to run for the set time + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 +4. Check for successful Engine turn ON i.e. + Engine Speed(EngSpd) != 0 +5. Wait for the engine to run till the set timer + + +Expected Output: +1. TCM shall export the + RemoteEngAcCmd = 1 +2. TCM shall start an EngAcOnTimer with SetTimer value internally. +3. Post expiry of EngAcOnTimer (i.e. SetTimer is reached), TCM shall publish RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of PEPS on receiving remote start Engine command from TCM with + +IPCRemoteCheck == 1 (VehSpdIC, VehSpdICStatus, APbState,ParkBrkState, LowFuelOutputIC, LowFuelOutputICStatus is within the pluasible limits) + +RemoteUsecaseState == 3 (All conditions of door, tailgate and bonnet are within the plausible limits) + +EMSRemoteCheck == 1 (Clutch, Acc.Pedal, Brake and Gear position, Crank enable status are within the plausible limits) + +RemoteEngAcCmd == 1 (ignition is off) + + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Transmit the following messages + GearShftLvrPos = 0 + CurrGearEms - 1 + BrkPressState - 1 + AccPedPosn - 0 + ClutPressStateEMSNew - 0 + APbState - 2 + ParkBrkState (PP) - 1 + RCrankEnable - 1 + VehSpdIC = 0 + LowFuelOutputIC = 0 + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState = 0 + BonnetState = 0 + LockState = 1 +3. Publish Remote Engine start Command from app/cloud +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = passed + +Expected Output: +PEPS shall wait for 5 seconds before sending the crank pulse to EMS. +Engine shall turn ON + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform in vehicle and allow it to run for the set time + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 +4. Check for successful Engine turn ON i.e. + Engine Speed(EngSpd) != 0 +5. Wait for the engine to run till the set timer + + +Expected Output: +1. TCM shall export the + RemoteEngAcCmd = 1 +2. TCM shall start an EngAcOnTimer with SetTimer value internally. +3. Post expiry of EngAcOnTimer (i.e. SetTimer is reached), TCM shall publish RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench +(Gear position not in neutral / Park mode) with a valid door status change and key Fob prescence inside the Lab car area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Perform the user entry with the help of a door transition with door unlock using KeyFob +5. Post which Change the current gear / Gear shift lever position value +MT - CurrGearEms != 1 +AT- GearShftLvrPos != 0 + +Expected Output: +Till the RemoteEngAcCmd == 1 signal is received from TCM, PEPS shall +1. Monitor Key +2. If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) and update BCM about +the key status +3. PEPS shall come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench +(Gear position not in neutral / Park mode) without a valid door status change and key Fob prescence outside the Lab car area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Without performing door status change, change the current gear / Gear shift lever position value +MT - CurrGearEms != 1 +AT- GearShftLvrPos != 0 + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench / labcar +(Gear position status signal is implausible) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Change the current gear / Gear shift lever position value +MT - CurrGearEmsStatus = 2 (Implausible) +AT- GearShftLvrPosStatus = 2 (Implausible) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(break pedal is pressed) with a valid door status change and key Fob presence inside the Labcar area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Perform the user entry with the help of a door transition with door unlock using KeyFob +5. Post which change the break pedal press state to pressed state (BrkPressState = 0) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(break pedal is pressed) without a valid door status change and key Fob presence outside the Labcar area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Without performing door status change, change the break pedal press state to pressed state (BrkPressState = 0) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(Brake pedal position status is implausible) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Change the break pedal position status is implausible +(BrkPressStatus = 2) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in Lab car / bench +(Acc. Pedal posistion is more than 0%) with a Valid door status change and KeyFob prescence inside the Labcar area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Perform the user entry with the help of a door transition with door unlock using KeyFob +5. Change the Accelerator pedal position status is implausible +(AccPedPosn > 0 %) + +Expected Output: +Till the RemoteEngAcCmd == 1 signal is received from TCM, PEPS shall +1. Monitor Key +2. If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) and update BCM about +the key status +3. PEPS shall come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in Lab car / bench +(Acc. Pedal posistion is more than 0%) without a Valid door status change and KeyFob prescence outside the Labcar area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Without performing a door status change, change the Accelerator pedal position status is implausible +(AccPedPosn > 0 %) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(Acc. Pedal position status signal is impluasible) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Change the Accelerator pedal position status is implausible +AccPedPosnStatus = 2 (implausible) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench / labcar +(Clutch pedal position is half / fully pressed) with a Valid door status change and KeyFob prescence inside the Labcar area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Perform the user entry with the help of a door transition with door unlock using KeyFob +5. Change the Clutch pedal position is fully / half pressed +ClutPressStateEMSNew = 1 || ClutPressStateEMSNew = 2 + +Expected Output: +Till the RemoteEngAcCmd == 1 signal is received from TCM, PEPS shall +1. Monitor Key +2. If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) and update BCM about +the key status +3. PEPS shall come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench / labcar +(Clutch pedal position is half / fully pressed) without a Valid door status change and KeyFob prescence inside the Labcar area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Without making a door status change, change the Clutch pedal position is fully / half pressed +ClutPressStateEMSNew = 1 || ClutPressStateEMSNew = 2 + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(Clutch pedal position signal is implausible) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Change the Clutch pedal position signal is implausible +ClutPressEMSStatusNew = 2 + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench / labcar +(MIL is ON) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote operation, check for the status of MIL +5. Generate error code to turn the MIL ON +MiLampState == 2 + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in labcar / bench +(RCrankEnalbe signal is diabled) +Applicable only with MT without EPB variant + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote operation, check for the RCrankEnable = 1 (Disabled) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench / labcar +(RCrankEnableStatus signal is implausible) +Applicable only with MT without EPB variant + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote operation, check for the RCrankEnableStatus = 2 (Implausible) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when a door open event is occuring during the execution of remote engine start event + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from cloud platform +3. Immediately after the SMS Wake up is confirmed in the system, perform a door open event +4. confirm the status of below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Check for the status of the response + +Expected Output: +The moment the door open event is observed during the execution of Remote engine start operation, if valid key Fob prescence is not detected +Then + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 +PEPS shall turn off the Ignition Relay and TCM shall monitor PowerModeState signal to understand vehicle state. + +======================================== + +======================================== + +Test Description: +To test the behaviour of BCM during the successful execution of remote engine start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Check for the status of Hazard in vehicle +6.Monitor the status of power mode as well whether it has changed from 0 to 6 to 8 + +Expected Output: +Hazard should flash for 3 time on vehicle within 30 secs to acknowledge the successful remote engine start +operation by monitoring PowerModeState signal + +======================================== + +======================================== + +Test Description: +To test the behaviour of BCM, TCM and IPC during the door open event with valid key Fob prescence after a successful execution of remote engine start event + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Perform a door open event with a valid keyfob presence inside the vehicle +6.Check for the status messages from BCM,TCM and IPC + RemoteUsecaseState + IPCRemoteCheck + RemoteEngAcCmd + +Expected Output: + If valid Key In status feedback received from PEPS and valid door/tailgate transition, BCM shall change +RemoteUsecaseState == 1 and share it with TCM, PEPS, EMS, IPC and HU for informing ECU's about start working as +normal Drive and ignore Remote Command precondition checks. + + After receiving RemoteUsecaseState == 1 from BCM, TCM should change RemoteEngAcCmd == 2 (Default) i.e. default state for informing +ECU's about end of RESS feature (deactive) and start working as normal drive. + + After receiving RemoteUsecaseState == 1 && RemoteEngAcCmd == 2 (Default) from BCM and TCM respectively, IPC should change +IPCRemoteCheck == 0 i.e. default state/normal running mode. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when a door status change is detected without valid keyfob presence + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, check for the presence of Key + DoorStateDrvr = 1 + KeyInState = 0 + + + +Expected Output: + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when low fuel event is detected in the vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, check for the low fuel statsu update in the bench + LowFuelOutputIC = 1 + + +Expected Output: + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform . + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Ensure that the remote engine start event is successful in vehicle along with power mode state transition from 0 to 6 to 8 +4. Post confirmation, Publish StopEngAcCommand from cloud/app within expiry of EngAcOnTimer. + +Expected Output: +TCM shall +1. Publish RemoteEngAcCmd = 0 +2. Kill EngAcOnTimer +3. TCM shall update the user about end of RESS feature through platform after successful Ignition Off + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on successful remote start Engine command from cloud platform and till the expiry of EngAconTimer . + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Wait for expiry of EngAcOnTimer. + +Expected Output: +1.TCM shall Publish + RemoteEngAcCmd = 0 +2. TCM shall update the user about end of RESS feature through platform after successful Ignition Off. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked using Keyfob during the execution of the remote start Engine command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed and locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 1 +5. Ensure the below signals from BCM/PEPS/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +6. During the execution of the remote start operation, unlock the vehicle doors using keyfob + VehicleLockState = 3 +7. Check for the status of the remote operation + +Expected Output: +The system shall check compare the BCMRemotePrecheck status update with respect to the vehicle unlock event + + If the unlock event has occured before the BCMRemotePrecheck value update on CAN, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off + + + If the unlock event has occured after the BCMRemotePrecheck value update on CAN as passed and operation is successful, TCM shall look for the door open event followed by KeyFob prescence inside the vehicle to enable PEPS to come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked from the inside (Without input from Keyfob) during the execution of the remote start Engine command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed and locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 1 +5. Ensure the below signals from BCM/PEPS/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +6. During the execution of the remote start operation, unlock the vehicle doors from the inside - master control lock of driver side door (Without Keyfob) + VehicleLockState = 3 +7. Check for the status of the remote operation + +Expected Output: +The system shall trigger unauthorized vehicle entry alert to the cloud as the vehicle is being unlocked without the input of Keyfob + + TCM, on receiving feature disable request from any ECU (Req 46), shall Update RemoteEngAcCmd == 0 to BCM and PEPS to indicate them to turn off RESS feature. + + TCM Shall kill the existing EngAcOnTimer timer. + + TCM shal l update the user about end of RESS feature after successful Ignition Off through platform whenever feature disable request is received from any ECU . TCM shall send response to cloud indicating feature is disabled due to BCM RemoteUsecaseState ,,)), IPC IPC RemoteCheck ) or EMS EMSRemoteCheck ) + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked using Keyfob after successful execution of the remote start Engine command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed and locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 1 +5. Ensure the below signals from BCM/PEPS/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +6. After the successful execution of the remote start operation, unlock the vehicle doors using keyfob + VehicleLockState = 3 +7. Check for the status of the remote operation + +Expected Output: +The system shall check compare the BCMRemotePrecheck status update with respect to the vehicle unlock event + + If the unlock event has occured before the BCMRemotePrecheck value update on CAN, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off + + + If the unlock event has occured after the BCMRemotePrecheck value update on CAN as passed and operation is successful, TCM shall look for the door open event followed by KeyFob prescence inside the vehicle to enable PEPS to come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked from the inside (Without input from Keyfob) after successful execution of the remote start Engine command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed and locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 1 +5. Ensure the below signals from BCM/PEPS/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +6. After the successful execution of the remote start operation, unlock the vehicle doors from the inside - master control lock of driver side door (Without Keyfob) + VehicleLockState = 3 +7. Check for the status of the remote operation + +Expected Output: +The system shall trigger unauthorized vehicle entry alert to the cloud as the vehicle is being unlocked without the input of Keyfob + + TCM, on receiving feature disable request from any ECU (Req 46), shall Update RemoteEngAcCmd == 0 to BCM and PEPS to indicate them to turn off RESS feature. + + TCM Shall kill the existing EngAcOnTimer timer. + + TCM shal l update the user about end of RESS feature after successful Ignition Off through platform whenever feature disable request is received from any ECU . TCM shall send response to cloud indicating feature is disabled due to BCM RemoteUsecaseState ,,)), IPC IPC RemoteCheck ) or EMS EMSRemoteCheck ) + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with low voltage in prestandby powermode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep the voltage level of battery voltage (V<9V) and check for the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed with reason low/high battery voltage etc. +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with low voltage in awake powermode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep the voltage level of battery voltage (V<9V) and check for the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed with reason low/high battery voltage etc. +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when remoteusecase status signal is implausible + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 2 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when remoteusecase status signal is not available + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when remoteusecase status signal is correct + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 2 + EMSRemoteCheck = 1 + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when IPCRemoteCheckStatus status signal is not available + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 3 + EMSRemoteCheck = 1 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when IPCRemoteCheckStatus status signal is implausible + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 2 + EMSRemoteCheck = 1 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when IPCRemoteCheckStatus status signal is correct + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when EMSRemoteCheckStatus status signal is implausible + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 2 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when EMSRemoteCheckStatus status signal is not available + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 3 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when EMSRemoteCheckStatus status signal is correct + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 3 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when the steering is in locked state and the battery voltage is above 9V + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep all the door signals in closed state +4. Keep the steering in lock state and battery voltage above 9V +4. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + +Expected Output: +PEPS shall check for steering lock condition and if it is locked then +1. PEPS shall publish the PEPSRemoteCheck == 1 to TCM and turn on the Ignition relay control. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep driver door open +3.Publish Remote Engine start Command from app/cloud. + + + +Expected Output: +1. If driver door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 (Switch on the ignition manually and switch OFF manually then before the system goes to sleep proceed with step 2) +2.Keep driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If driver door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep co- driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If co-driver door Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 (Switch on the ignition manually and switch OFF manually then before the system goes to sleep proceed with step 2) +2.Keep co- driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If co-driver door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep Rear Right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If right rear door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep Rear Right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If right rear door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep Rear Left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If Rear left door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as awake + PowerModeState = 1 +2.Keep Rear Left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If Rear left door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep Tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If Tailgate is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep Tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If Tailgate status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep Bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If Bonnet is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake powermode + PowerModeState = 1 +2. .Keep Bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If Bonnet is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both driver and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep both driver and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If both driver and co-driver door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both driver and rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If both driver and rear right door are Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awkae power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep both driver and rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If both Driver and Right rear door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both driver and rear Left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If driver and rear left door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as awake + PowerModeState = 1 +2 .Keep both driver and rear left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If Driver and rear left door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both driver and Tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If Driver and Tailgate is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep both driver and Tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If both driver and tailgate is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both driver and bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If driver and bonnet door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep both driver and bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If driver and bonnet door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both co-driver and rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If co-driver and rear right door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep both co-driver and rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If co-driver and rear right door Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both co-driver and rear Left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep both co-driver and rear Left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If co-driver and rear left door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both co-driver and tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If co-driver and Tailgate door Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep both co-driver and Tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If co-driver and Tailgate door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both co-driver and bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If both co-driver and bonnet door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep both co-driver and bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If both co-driver and bonnet door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both Rear left and rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If both Rear left and rear right door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep both Rear left and rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If rear left and rear right door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both Tailgate and rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If tailgate and Rear right door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep both tailgate and rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If tailgate and rear right is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both bonnet and rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If bonnet and rear right door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep both bonnet and rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If bonnet and rear right door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both tailgate and rear Left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If both tailgate and rear Left door Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep both tailgate and rear Left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If Tailgate and rear left door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both Bonnet and rear Left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If both bonnet and rear left door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep both Bonnet and rear Left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If both Bonnet and rear left door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep both Bonnet and tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If Bonnet and Tailgate is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and Awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep both Bonnet and TailGate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If both bonnet and Tailgate door is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep driver,co-driver and rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If driver,co-driver and rear right are Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep driver,co-driver and rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If driver,co-driver and rear right are Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep driver,rear left and rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep driver,rear left and rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep driver,rear left and Tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep driver,rear left and Tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep driver,bonnet and Tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as awake + PowerModeState = 1 +2 .Keep driver,bonnet and Tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: + +"1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep driver,bonnet and co-driver door open +3.Publish Remote Engine start Command from app/cloud." + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep driver,bonnet and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep rear right, rear left and co-driver door open +3.Publish Remote Engine start Command from app/cloud." + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep rear right, rear left and co-driver door open +3.Publish Remote Engine start Command from app/cloud." + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep tailgate, rear left and co-driver door open +3.Publish Remote Engine start Command from app/cloud." + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep tailgate, rear left and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep tailgate,bonnet and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep tailgate,bonnet and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep tailgate, Rear right and rear left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep tailgate, Rear right and rear left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep tailgate, Rear right and bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep tailgate, Rear right and bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep Driver, Rear right and bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2 .Keep Driver, Rear right and bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2 .Keep Tailgat,Rear left and bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep Tailgate ,rear left and bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep driver, rear left and bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 + +2.Keep driver, rear left and bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 + +2.Keep driver, rear left and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep driver, rear left and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep driver,rear right and tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep driver,rear right and tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep driver, co-driver and tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep driver,co-driver and tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep co-driver,rear right and tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep co-driver,rear right and tailgate door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep co-driver,rear right and bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep co-driver,rear right and bonnet door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep bonnet ,rear right and Rear left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep bonnet ,rear right and Rear left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep bonnet ,co-driver and Rear left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep bonnet ,co-driver and Rear left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep driver,co-driver,rear Right and Rear left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep driver,co-driver,rear Right and Rear left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep driver,Tailgate,rear Right and Rear left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep driver,Tailgate,rear Right and Rear left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep driver,Tailgate,bonnet and Rear left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep driver,Tailgate,bonnet and Rear left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep driver,Tailgate,bonnet and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep driver,Tailgate,bonnet and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 + +2.Keep driver, Rear right ,bonnet and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep driver, Rear right ,bonnet and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep Rear left, Rear right , tailgate and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep Rear left, Rear right , tailgate and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep Rear left,bonnet , tailgate and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep Rear left,bonnet , tailgate and co-driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep Rear left,bonnet , tailgate and Rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep Rear left,bonnet , tailgate and Rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep Driver ,bonnet , tailgate and Rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep Driver ,bonnet , tailgate and Rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep Driver ,bonnet ,co-driver and Rear Left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep Driver ,bonnet ,co-driver and Rear Left door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep Driver ,tailgate,co-driver and Rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep Driver ,tailgate,co-driver and Rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep bonnet,rear left,co-driver and Rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep bonnet,rear left,co-driver and Rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep driver,co-driver,rear left,co-driver and Rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep driver,co-driver,rear left,co-driver and Rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 + +2.Keep driver,bonnet ,tailgate,rear left and Rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep driver,bonnet ,tailgate,rear left and Rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep co-driver,bonnet ,tailgate,rear left and Rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep co-driver,bonnet ,tailgate,rear left and Rear right door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep co-driver,bonnet ,tailgate,rear left and driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 + +2.Keep co-driver,bonnet ,tailgate,rear left and driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 + +2.Keep rear right,bonnet ,tailgate,rear left and driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep rear right,bonnet ,tailgate,rear left and driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.Keep rear right,bonnet ,tailgate,co-driver and driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 + +2.Keep rear right,bonnet ,tailgate,co-driver and driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 + +2.Keep Rear Left,rear right,bonnet ,tailgate,co-driver and driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition and awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2.Keep Rear Left,rear right,bonnet ,tailgate,co-driver and driver door open +3.Publish Remote Engine start Command from app/cloud. + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door close but unlocked condition in prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed but not locked +5. Read for the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 2 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: +If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState +== 0 to applicable ECU's informing about Remote Engine feature is turned off + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door close but unlocked condition in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed but not locked +5. Read for the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 2 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: +If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState +== 0 to applicable ECU's informing about Remote Engine feature is turned off + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with Steering unlocked condition in prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep steering unlock + Read below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed with reason - steering not locked etc. +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with Steering unlocked condition in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake (Toggle the ignition switch and before the CAN bus goes to sleep) + Ensure the PowerModeState = 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep steering unlock + to Read below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed with reason - steering not locked etc. +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with Steering unlocked condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep steering of the vehicle in locked condition + to Read below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + +Expected Output: +PEPS shall check for battery voltage and if it is above 9V +1. PEPS shall publish the PEPSRemoteCheck == 1 to TCM and turn on the Ignition relay control. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with low battery voltage in prestandby powermode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Connect battery wiith voltage (V<9V) and read below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed with reason low battery voltage etc. +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with low battery voltage in awake powermode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake (Toggle the ignition switch and before the CAN bus goes to sleep) + Ensure the PowerModeState = 1 +2. Publish Remote Engine start Command from app/cloud. +3. Connect battery wiith voltage (V<9V) and read below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed with reason low battery voltage etc. +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when the steering is in locked state and the battery voltage is above 9V + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep all the door signals in closed state +4. Keep the steering in lock state and battery voltage above 9V +4. read below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + +Expected Output: +PEPS shall check for steering lock condition and if it is locked then +1. PEPS shall publish the PEPSRemoteCheck == 1 to TCM and turn on the Ignition relay control. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform . + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Ensure that the remote engine start event is successful in vehicle along with power mode state transition from 0 to 6 to 8 +4. Post confirmation, Publish StopEngAcCommand from cloud/app within expiry of EngAcOnTimer. + +Expected Output: +TCM shall +1. Publish RemoteEngAcCmd = 0 +2. Kill EngAcOnTimer +3. TCM shall update the user about end of RESS feature through platform after successful Ignition Off + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on successful remote start Engine command from cloud platform and till the expiry of EngAconTimer . + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Wait for expiry of EngAcOnTimer. + +Expected Output: +1.TCM shall Publish + RemoteEngAcCmd = 0 +2. TCM shall update the user about end of RESS feature through platform after successful Ignition Off. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when remoteusecase status signal is implausible + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.simulate the implausible value for remote use case status +3. Publish Remote Engine start Command from app/cloud. + + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when remoteusecase status signal is not available + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.simulate remoteusecase status signal as not available +3. Publish Remote Engine start Command from app/cloud. + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when remoteusecase status signal is correct + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.simulate remoteusecase status signal as not correct +3. Publish Remote Engine start Command from app/cloud. + + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when IPCRemoteCheckStatus status signal is not available + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.simulate IPCRemoteCheckStatus status signal as not available +3. Publish Remote Engine start Command from app/cloud. + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when IPCRemoteCheckStatus status signal is implausible + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.simulate IPCRemoteCheckStatus status signal as implausible +3. Publish Remote Engine start Command from app/cloud. + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when IPCRemoteCheckStatus status signal is correct + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.simulate IPCRemoteCheckStatus status signal as correct +3. Publish Remote Engine start Command from app/cloud. + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when EMSRemoteCheckStatus status signal is implausible + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.simulate EMSRemoteCheckStatus status signal as implausible +3. Publish Remote Engine start Command from app/cloud. + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when EMSRemoteCheckStatus status signal is not available + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.simulate EMSRemoteCheckStatus status signal as not available +3. Publish Remote Engine start Command from app/cloud. + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when EMSRemoteCheckStatus status signal is correct + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2.simulate EMSRemoteCheckStatus status signal as correct +3. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall set + RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with low fuel level + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud - RemoteEngAcCmd == 1 +3. Leave the fuel level in the Labcar as low (LowFuelOutputIC = 1) +4. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with non zero vehicle speed value + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Set the vehicle speed at more than 0 Kmph (eg: 10Kmph) in the Labcar (VehSpdIC) +4. Check for the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with Epb not in locked state in bench + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud - RemoteEngAcCmd == 1 +3. Disengage the park brake by tranmistting APbState !=2 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with EPB error + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Disengage the park brake by tranmistting APbErrorState != 1 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform, when Fuel level is low and vehicle speed is non zero + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. check all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 +4. Change the status of fuel level and vehicle speed as follows + LowFuelOutputIC = 1 + VehSpdIC != 0 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform, when Fuel level is low and Epb state is not locked + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. check all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 +4. Change the status of fuel level and vehicle speed as follows + LowFuelOutputIC = 1 + APbState != 2 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform, when Fuel level is low and Epb is in error state + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. check all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 +4. Change the status of fuel level and vehicle speed as follows + LowFuelOutputIC = 1 + APbErrorState != 1 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform, when Fuel level is low and park brake is OFF + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. check all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 +4. Change the status of fuel level and vehicle speed as follows + LowFuelOutputIC = 1 + ParkBrkState == 0 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform, when vehicle speed is non zero and Epb state is not locked + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. check all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 +4. Change the status of fuel level and vehicle speed as follows + VehSpdIC != 0 + APbState != 2 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform, when vehicle speed is non zero and Epb is in error state + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. check all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 +4. Change the status of fuel level and vehicle speed as follows + VehSpdIC != 0 + APbErrorState != 1 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform, when vehicle speed is non zero and park brake is OFF + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Check all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 +4. Change the status of fuel level and vehicle speed as follows + VehSpdIC != 0 + ParkBrkState == 0 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform, when Epb is not locked and Epb is in error state + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. check all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 +4. Change the status of fuel level and vehicle speed as follows + APbState != 2 + APbErrorState != 1 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform, when Fuel level is low, vehicle speed is non zero, Epb is not locked + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. check all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 +4. Change the status of fuel level and vehicle speed as follows + LowFuelOutputIC = 1 + VehSpdIC != 0 + APbState != 2 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform, when Fuel level is low, vehicle speed is non zero, Epb is not locked and EPB is in error state + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. check all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 +4. Change the status of fuel level and vehicle speed as follows + LowFuelOutputIC = 1 + VehSpdIC != 0 + APbState != 2 + APbErrorState != 1 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform, when Fuel level is low, vehicle speed is non zero, park brake is not engaged + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. check all the preconditions from BCM and PEPS to be valid so that the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 +4. Change the status of fuel level and vehicle speed as follows + LowFuelOutputIC = 1 + VehSpdIC != 0 + ParkBrkState == 0 +5. Confirm the status of the message from IPS remote check is as follows + IPCRemoteCheck = 2 + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with normal fuel level, zero vehicle speed and park brake engaged + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Disengage the park brake by tranmistting + ParkBrkState == 1 + VehSpdIC = 0 + LowFuelOutputIC = 0 +4. check the below signals from IPC: + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If received signal status from IPC is successful as well as PowerModeState (Ignition On), TCM shall send RemoteEngAcCmd +== 1 signal periodically to BCM & PEPS to keep the Ignition ON relay remotely active. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with normal fuel level, zero vehicle speed and EPB is in locked condition without any error + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Disengage the park brake by tranmistting + APbErrorState = 1 + APbState = 2 + VehSpdIC = 0 + LowFuelOutputIC = 0 +4. check the below signals from IPC: + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If received signal status from IPC is successful as well as PowerModeState (Ignition On), TCM shall send RemoteEngAcCmd +== 1 signal periodically to BCM & PEPS to keep the Ignition ON relay remotely active. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - 5 +4. check the below signals from IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - 6 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - 7 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - 8 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - 9 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - A +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - B +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - E +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 0 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 2 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 3 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 4 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 5 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 6 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 7 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 8 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with +BrkPressState outside set limits / implausible values + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + BrkPressState - 0 +4. check the below signals from IPC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponses + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with AccPedPosn outside set limits / implausible values + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + AccPedPosn - 20% +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with ClutPressStateEMSNew, outside set limits / implausible values + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + ClutPressStateEMSNew - 1,2 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with +APbState, ParkBrkState (PP) +in outside set limits / implausible values + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + APbState !=2 || ParkBrkState (PP) = 0 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with RCrankEnable +in outside set limits / implausible values + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + RCrankEnable = 0 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench +(Gear position not in neutral / Park mode) with a valid door status change and key Fob prescence inside the Lab car area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Perform the user entry with the help of a door transition with door unlock using KeyFob +5. Post which Change the current gear / Gear shift lever position value +MT - CurrGearEms != 1 +AT- GearShftLvrPos != 0 + +Expected Output: +Till the RemoteEngAcCmd == 1 signal is received from TCM, PEPS shall +1. Monitor Key +2. If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) and update BCM about +the key status +3. PEPS shall come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench +(Gear position not in neutral / Park mode) without a valid door status change and key Fob prescence outside the Lab car area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Without performing door status change, change the current gear / Gear shift lever position value +MT - CurrGearEms != 1 +AT- GearShftLvrPos != 0 + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench / labcar +(Gear position status signal is implausible) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Change the current gear / Gear shift lever position value +MT - CurrGearEmsStatus = 2 (Implausible) +AT- GearShftLvrPosStatus = 2 (Implausible) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(break pedal is pressed) with a valid door status change and key Fob presence inside the Labcar area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Perform the user entry with the help of a door transition with door unlock using KeyFob +5. Post which change the break pedal press state to pressed state (BrkPressState = 0) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(break pedal is pressed) without a valid door status change and key Fob presence outside the Labcar area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Without performing door status change, change the break pedal press state to pressed state (BrkPressState = 0) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(Brake pedal position status is implausible) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Change the break pedal position status is implausible +(BrkPressStatus = 2) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in Lab car / bench +(Acc. Pedal posistion is more than 0%) with a Valid door status change and KeyFob prescence inside the Labcar area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Perform the user entry with the help of a door transition with door unlock using KeyFob +5. Change the Accelerator pedal position status is implausible +(AccPedPosn > 0 %) + +Expected Output: +Till the RemoteEngAcCmd == 1 signal is received from TCM, PEPS shall +1. Monitor Key +2. If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) and update BCM about +the key status +3. PEPS shall come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in Lab car / bench +(Acc. Pedal posistion is more than 0%) without a Valid door status change and KeyFob prescence outside the Labcar area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Without performing a door status change, change the Accelerator pedal position status is implausible +(AccPedPosn > 0 %) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(Acc. Pedal position status signal is impluasible) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Change the Accelerator pedal position status is implausible +AccPedPosnStatus = 2 (implausible) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench / labcar +(Clutch pedal position is half / fully pressed) with a Valid door status change and KeyFob prescence inside the Labcar area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Perform the user entry with the help of a door transition with door unlock using KeyFob +5. Change the Clutch pedal position is fully / half pressed +ClutPressStateEMSNew = 1 || ClutPressStateEMSNew = 2 + +Expected Output: +Till the RemoteEngAcCmd == 1 signal is received from TCM, PEPS shall +1. Monitor Key +2. If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) and update BCM about +the key status +3. PEPS shall come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench / labcar +(Clutch pedal position is half / fully pressed) without a Valid door status change and KeyFob prescence inside the Labcar area + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Without making a door status change, change the Clutch pedal position is fully / half pressed +ClutPressStateEMSNew = 1 || ClutPressStateEMSNew = 2 + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(Clutch pedal position signal is implausible) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Change the Clutch pedal position signal is implausible +ClutPressEMSStatusNew = 2 + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench / labcar +(MIL is ON) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote operation, check for the status of MIL +5. Generate error code to turn the MIL ON +MiLampState == 2 + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in labcar / bench +(RCrankEnalbe signal is diabled) +Applicable only with MT without EPB variant + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote operation, check for the RCrankEnable = 1 (Disabled) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench / labcar +(RCrankEnableStatus signal is implausible) +Applicable only with MT without EPB variant + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote operation, check for the RCrankEnableStatus = 2 (Implausible) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when low fuel event is detected in the labcar + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, check for the low fuel statsu update in the bench + LowFuelOutputIC = 1 + + +Expected Output: + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with igniton ON and engine speed > 0rpm + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +4. Immediately publish another remote command from the cloud platform , by not sending the response of the first event back to the cloud +5. Check for the status of the response + +Expected Output: +The second command shall not be available for user selection, even if provided by chance it shall fail without affecting the previous remote operation + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when a door open event is occuring during the execution of remote engine start event + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from cloud platform +3. Immediately after the SMS Wake up is confirmed in the system, perform a door open event +4. confirm the status of below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Check for the status of the response + +Expected Output: +The moment the door open event is observed during the execution of Remote engine start operation, if valid key Fob prescence is not detected +Then + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 +PEPS shall turn off the Ignition Relay and TCM shall monitor PowerModeState signal to understand vehicle state. + +======================================== + +======================================== + +Test Description: +To test the behaviour of BCM during the successful execution of remote engine start event in labcar + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Check for the status of Hazard in vehicle +6.Monitor the status of power mode as well whether it has changed from 0 to 6 to 8 + +Expected Output: +Hazard should flash for 3 time on vehicle within 30 secs to acknowledge the successful remote engine start +operation by monitoring PowerModeState signal + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when the remote engine start command is received from cloud platform but the feedback / response is not updated to the cloud + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Before sending the response to the cloud, disconnect the connection to the network by removing the network antenna from the Telematics unit +6.Check for the status messages / update on the mobile app + +Expected Output: +The mobile app shall wait for a defined timeout period and shall update the feedback not received from device message to the user + + +All the command buttons shall be disabled until the feedback is received from the telematics unit + +The Telematics unit shall continuously retry to deliver the remote start response back to the cloud at the first instance of network reconnection + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM and other ECUs when remote engine start is requested through EOL tester tool + +Pre-condition: +1. TCM should allow the remote engine start request via a EOL tester tool as a valid request + + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from the EOL tester tool +3. confirm the status of below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass / Fail + +Expected Output: +All ECUs shall support for checking of RESS feature at EoL through tester/tool. For Ex. ECUs shall allow to start +the engine remotely when Remote Engine Start Stop requested through tester/tool + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform in IGN ON condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the vehicle in IGN ON condition +2. Publish Remote Engine start Command from app/cloud. +3. Check the below signals from TCM: + RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: +TCM, if Ignition is ON (as per TCM's Ignition Hardwire input), shall ignore the command from platform and shall send +StartEngCommandResponse == Failed as per TMCVP to cloud over GSM/GPRS communication. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with IPCRemotecheck failure scenario in prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud - RemoteEngAcCmd == 1 +3. Set below signals from BCM/PEPS: + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 +4. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with IPCRemotecheck failure scenario in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote Engine start Command from app/cloud - RemoteEngAcCmd == 1 +3. Set below signals from BCM/PEPS: + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 +4. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when all the signals are within the boundary limits in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 +4. CHeck for Powermode = 6 (IGN ON) +5. Check for successful Engine turn ON i.e. + Engine Speed(EngSpd) != 0 and Power mode = 8 + + +Expected Output: +1. TCM shall export the + RemoteEngAcCmd = 1 +2. TCM shall start an EngAcOnTimer with SetTimer value internally. +If all ECUs remote pre-conditions ok , PEPS shall take 5 seconds to crank the vehicle Powermode state to be changed to engine run and command response success shall be exported to cloud/app + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform in vehicle and allow it to run for the set time + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 +4. Check for successful Engine turn ON i.e. + Engine Speed(EngSpd) != 0 +5. Wait for the engine to run till the set timer + + +Expected Output: +1. TCM shall export the + RemoteEngAcCmd = 1 +2. TCM shall start an EngAcOnTimer with SetTimer value internally. +3. Post expiry of EngAcOnTimer (i.e. SetTimer is reached), TCM shall publish RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos, CurrGearEms + BrkPressState, +AccPedPosn, +ClutPressStateEMSNew, +APbState, ParkBrkState (PP), +RCrankEnable +in within the set limits / plausible values + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - 0 + CurrGearEms - 1 + BrkPressState - 1 + AccPedPosn - 0 + ClutPressStateEMSNew - 0 + APbState - 2 + ParkBrkState (PP) - 1 + RCrankEnable - 1 +4. Ensurethe below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + EMS shall update EMSRemoteCheck == 1 (remote check successful), no action for TCM. + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and BCM preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and PEPS preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 2 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and IPC preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3.Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and EMS preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and RemoteUseCaseState OFF and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=120 +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=150 +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=90 +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=130 +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=60 +3.Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=160 +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=140 +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=300 +3. Ensurethe below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=180 +3.Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=300 +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState =0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform.+E389:I389 + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3.Ensurethe below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3.Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of PEPS on receiving remote start Engine command from TCM with + +IPCRemoteCheck == 1 (VehSpdIC, VehSpdICStatus, APbState,ParkBrkState, LowFuelOutputIC, LowFuelOutputICStatus is within the pluasible limits) + +RemoteUsecaseState == 3 (All conditions of door, tailgate and bonnet are within the plausible limits) + +EMSRemoteCheck == 1 (Clutch, Acc.Pedal, Brake and Gear position, Crank enable status are within the plausible limits) + +RemoteEngAcCmd == 1 (ignition is off) + + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Transmit the following messages + GearShftLvrPos = 0 + CurrGearEms - 1 + BrkPressState - 1 + AccPedPosn - 0 + ClutPressStateEMSNew - 0 + APbState - 2 + ParkBrkState (PP) - 1 + RCrankEnable - 1 + VehSpdIC = 0 + LowFuelOutputIC = 0 + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState = 0 + BonnetState = 0 + LockState = 1 +3. Publish Remote Engine start Command from app/cloud +4. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = passed + +Expected Output: +PEPS shall wait for 5 seconds before sending the crank pulse to EMS. +Engine shall turn ON + +======================================== + +======================================== + +Test Description: +To test the behaviour of BCM, TCM and IPC during the door open event with valid key Fob prescence after a successful execution of remote engine start event + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from cloud platform +3. Ensure the status of below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Perform a door open event with a valid keyfob presence inside the vehicle +6.Check for the status messages from BCM,TCM and IPC + RemoteUsecaseState + IPCRemoteCheck + RemoteEngAcCmd + +Expected Output: + If valid Key In status feedback received from PEPS and valid door/tailgate transition, BCM shall change +RemoteUsecaseState == 1 and share it with TCM, PEPS, EMS, IPC and HU for informing ECU's about start working as +normal Drive and ignore Remote Command precondition checks. + + After receiving RemoteUsecaseState == 1 from BCM, TCM should change RemoteEngAcCmd == 2 (Default) i.e. default state for informing +ECU's about end of RESS feature (deactive) and start working as normal drive. + + After receiving RemoteUsecaseState == 1 && RemoteEngAcCmd == 2 (Default) from BCM and TCM respectively, IPC should change +IPCRemoteCheck == 0 i.e. default state/normal running mode. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when a door status change is detected without valid keyfob presence + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, check for the presence of Key + DoorStateDrvr = 1 + KeyInState = 0 + + + +Expected Output: + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked using Keyfob during the execution of the remote start Engine command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed and locked +5. Ensure the below signals from BCM/PEPS/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +6. During the execution of the remote start operation, unlock the vehicle doors using keyfob + VehicleLockState = 3 +7. Check for the status of the remote operation + +Expected Output: +The system shall check compare the BCMRemotePrecheck status update with respect to the vehicle unlock event + + If the unlock event has occured before the BCMRemotePrecheck value update on CAN, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off + + + If the unlock event has occured after the BCMRemotePrecheck value update on CAN as passed and operation is successful, TCM shall look for the door open event followed by KeyFob prescence inside the vehicle to enable PEPS to come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked from the inside (Without input from Keyfob) during the execution of the remote start Engine command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed and locked +5. Ensure the below signals from BCM/PEPS/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +6. During the execution of the remote start operation, unlock the vehicle doors from the inside - master control lock of driver side door (Without Keyfob) + VehicleLockState = 3 +7. Check for the status of the remote operation + +Expected Output: +The system shall trigger unauthorized vehicle entry alert to the cloud as the vehicle is being unlocked without the input of Keyfob + + TCM, on receiving feature disable request from any ECU (Req 46), shall Update RemoteEngAcCmd == 0 to BCM and PEPS to indicate them to turn off RESS feature. + + TCM Shall kill the existing EngAcOnTimer timer. + + TCM shal l update the user about end of RESS feature after successful Ignition Off through platform whenever feature disable request is received from any ECU . TCM shall send response to cloud indicating feature is disabled due to BCM RemoteUsecaseState ,,)), IPC IPC RemoteCheck ) or EMS EMSRemoteCheck ) + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked using Keyfob after successful execution of the remote start Engine command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed and locked + 5. Ensure the below signals from BCM/PEPS/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +6. After the successful execution of the remote start operation, unlock the vehicle doors using keyfob +7. Check for the status of the remote operation + +Expected Output: +The system shall check compare the BCMRemotePrecheck status update with respect to the vehicle unlock event + + If the unlock event has occured before the BCMRemotePrecheck value update on CAN, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off + + + If the unlock event has occured after the BCMRemotePrecheck value update on CAN as passed and operation is successful, TCM shall look for the door open event followed by KeyFob prescence inside the vehicle to enable PEPS to come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked from the inside (Without input from Keyfob) after successful execution of the remote start Engine command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed and locked + 5. Ensure the below signals from BCM/PEPS/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +6. After the successful execution of the remote start operation, unlock the vehicle doors from the inside - master control lock of driver side door (Without Keyfob) +7. Check for the status of the remote operation + +Expected Output: +The system shall trigger unauthorized vehicle entry alert to the cloud as the vehicle is being unlocked without the input of Keyfob + + TCM, on receiving feature disable request from any ECU (Req 46), shall Update RemoteEngAcCmd == 0 to BCM and PEPS to indicate them to turn off RESS feature. + + TCM Shall kill the existing EngAcOnTimer timer. + + TCM shal l update the user about end of RESS feature after successful Ignition Off through platform whenever feature disable request is received from any ECU . TCM shall send response to cloud indicating feature is disabled due to BCM RemoteUsecaseState ,,)), IPC IPC RemoteCheck ) or EMS EMSRemoteCheck ) + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in awake state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Switch ON the ignition of the vehicle +2. Leave the system as such for a min +3. Switch OFF the ignition +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 1 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall StartEngAcCommandWakeLock with timer Par_StartEngAcCommandWakeLock & +1. Publish TM_NMPDU Message over vehicle CAN. +2.Wake up the BCM on hardwired line. +3. Set RemoteEngAcCmd = 1 +4. The Engine shall start as all the prechecks of BCM, IPC and EMS will pass + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in awake state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Switch ON the ignition of the vehicle +2. Leave the system as such for a min +3. Switch OFF the ignition +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 1 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall StartEngAcCommandWakeLock with timer Par_StartEngAcCommandWakeLock & +1. Publish TM_NMPDU Message over vehicle CAN. +2.Wake up the BCM on hardwired line. +3. Set RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Transport Park state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the precondition to leave the system in Transport park state +2. Check the activity of messages on CAN +3. Confirm the status of PowerModeState = 2 +4. Close all the doors, keep the vehicle in neutral / parl mode +5. Engage the park gear +6. Perform the remote engine start operation from mobile app +7. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in KeyIn state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole / place it near the Start stop push button +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 3 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Accessory state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the position before ignition (where Accessory loads are getting turned ON) +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 4 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Accessory delay state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Ensure the preconditions are met to keep the vehicle in Accessory delay mode +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 5 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Ignition ON state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position or +3. Place the keyFob near to the start stop button switch and push the button to turn on the ignition +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 6 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Transport Drive state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Ensure the preconditions are met to keep the vehicle in Transport Drive mode +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 7 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Engine Run state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Crank the engine successfully and change the drive position to drive / Change the gear from neutral and start driving the vehicle +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 8 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Crank state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Crank the engine +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 9 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Transport Drive crank state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Ensure the preconditions are met for achieving Transport drive crank state +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = A +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Transport Drive run state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Ensure the preconditions are met for achieving Transport drive run state +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = B +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in awake state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Switch ON the ignition of the vehicle +2. Leave the system as such for a min +3. Switch OFF the ignition +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 1 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall StartEngAcCommandWakeLock with timer Par_StartEngAcCommandWakeLock & +1. Publish TM_NMPDU Message over vehicle CAN. +2.Wake up the BCM on hardwired line. +3. Set RemoteEngAcCmd = 1 +4. The Engine shall start as all the prechecks of BCM, IPC and EMS will pass + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the vehicle in IGN OFF state +2. Ensure that TCM is in sleep state and Powermode is 0 +3. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall StartEngAcCommandWakeLock with timer Par_StartEngAcCommandWakeLock & +1. Publish TM_NMPDU Message over vehicle CAN. +2.Wake up the BCM on hardwired line. +3. Set RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in awake state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Switch ON the ignition of the vehicle +2. Leave the system as such for a min +3. Switch OFF the ignition +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 1 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall StartEngAcCommandWakeLock with timer Par_StartEngAcCommandWakeLock & +1. Publish TM_NMPDU Message over vehicle CAN. +2.Wake up the BCM on hardwired line. +3. Set RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Transport Park state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the precondition to leave the system in Transport park state +2. Check the activity of messages on CAN +3. Confirm the status of PowerModeState = 2 +4. Close all the doors, keep the vehicle in neutral / parl mode +5. Engage the park gear +6. Perform the remote engine start operation from mobile app +7. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in KeyIn state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole / place it near the Start stop push button +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 3 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Accessory state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the position before ignition (where Accessory loads are getting turned ON) +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 4 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Accessory delay state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Ensure the preconditions are met to keep the vehicle in Accessory delay mode +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 5 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Ignition ON state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position or +3. Place the keyFob near to the start stop button switch and push the button to turn on the ignition +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 6 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Transport Drive state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Ensure the preconditions are met to keep the vehicle in Transport Drive mode +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 7 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Engine Run state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Crank the engine successfully and change the drive position to drive / Change the gear from neutral and start driving the vehicle +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 8 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Crank state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Crank the engine +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = 9 +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Transport Drive crank state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Ensure the preconditions are met for achieving Transport drive crank state +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = A +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM on receiving remote start Engine command from cloud platform to vehicle when it is in Transport Drive run state. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the system in IGN OFF state +2. Put in the Key inside the Key hole and turn to the ignition position / place the keyFob near to the start stop button switch and push the button to turn on the ignition +3. Ensure the preconditions are met for achieving Transport drive run state +4. Check the activity of messages on CAN +5. Confirm the status of PowerModeState = B +6. Close all the doors, keep the vehicle in neutral / parl mode +7. Engage the park gear +8. Perform the remote engine start operation from mobile app +9. Check for the status of the response in the vehicle + +Expected Output: +TCM shall publish the Don't Care condition of the status signal + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby / awake + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened during the execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Ensure all the prechecks from BCM, IPC and PEPS are successful +4. Confirm that the vehicle CAN is awake upon the reception of the remote engine start command by the TCU +5. During the execution of the command in the vehicle, unlock the vehicle +6. Open the driver side door + DoorStateDrvr = 1 +7. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, check for the presence of Key + DoorStateDrvr = 1 +5. Check for the status of the remote operation + + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened during the execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby/Awake + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Ensure all the prechecks from BCM, IPC and PEPS are successful +4. Confirm that the vehicle CAN is awake upon the reception of the remote engine start command by the TCU +5. During the execution of the command in the vehicle, unlock the vehicle +6. Open the following door + DoorStatePass = 1 +7. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, keep the following door open + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby/Awake + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep the following door open + DoorStateRearRH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened during the execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Ensure all the prechecks from BCM, IPC and PEPS are successful +4. Confirm that the vehicle CAN is awake upon the reception of the remote engine start command by the TCU +5. During the execution of the command in the vehicle, unlock the vehicle +6. Open the following door + DoorStatePass = 1 +7. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, keep the following door open + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby/Awake + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep the following door open + DoorStateRearLH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened during the execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Ensure all the prechecks from BCM, IPC and PEPS are successful +4. Confirm that the vehicle CAN is awake upon the reception of the remote engine start command by the TCU +5. During the execution of the command in the vehicle, unlock the vehicle +6. Open the following door + DoorStateRearLH = 1 +7. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following door + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby/Awake + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened during the execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Ensure all the prechecks from BCM, IPC and PEPS are successful +4. Confirm that the vehicle CAN is awake upon the reception of the remote engine start command by the TCU +5. During the execution of the command in the vehicle, unlock the vehicle +6. Open the following door + TailgateState = 1 +7. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby/Awake + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened during the execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Ensure the Power Mode as Pre Standby + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Ensure all the prechecks from BCM, IPC and PEPS are successful +4. Confirm that the vehicle CAN is awake upon the reception of the remote engine start command by the TCU +5. During the execution of the command in the vehicle, unlock the vehicle +6. Open the following door + BonnetState = 1 +7. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby/awake + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearRH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + BonnetState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + DoorStateRearRH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby/Awake + PowerModeState = 0/1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + BonnetState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + BonnetState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearLH = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + BonnetState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearLH = 1 + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + BonnetState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + TailgateState = 1 + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearLH = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + BonnetState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStatePass = 1 + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + TailgateState = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + TailgateState = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + TailgateState = 1 + BonnetState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + TailgateState = 1 + BonnetState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateRearLH = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + BonnetState = 1 + DoorStateDrvr = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + BonnetState = 1 + DoorStateDrvr = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + BonnetState = 1 + DoorStateDrvr = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearLH = 1 + BonnetState = 1 + DoorStateDrvr = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + DoorStatePass = 1 + DoorStateDrvr = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearLH = 1 + DoorStatePass = 1 + DoorStateDrvr = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + DoorStateDrvr = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + TailgateState = 1 + DoorStateDrvr = 1 + DoorStateRearRH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + DoorStatePass = 1 + DoorStateDrvr = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + TailgateState = 1 + DoorStatePass = 1 + DoorStateDrvr = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + TailgateState = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + TailgateState = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + BonnetState = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + DoorStateRearLH = 1 + DoorStateRearRH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + BonnetState = 1 + DoorStateRearLH = 1 + DoorStateRearRH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + BonnetState = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + BonnetState = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + TailgateState = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + DoorStateRearLH = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + DoorStateRearLH = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + TailgateState = 1 + BonnetState = 1 + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearRH = 1 + BonnetState = 1 + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStatePass = 1 + BonnetState = 1 + DoorStateRearLH = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStatePass = 1 + BonnetState = 1 + DoorStateRearLH = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearLH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateDrvr = 1 + TailgateState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateDrvr = 1 + TailgateState = 1 + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby /Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + DoorStatePass = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStateDrvr = 1 + DoorStatePass = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + DoorStatePass = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStateDrvr = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateRearRH = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearLH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearLH = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +2. If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +3. If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door open condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep driver/passenger door open + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearRH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + +Expected Output: +1. If any of the door status is Open, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off. + +2. If received signal status from BCM is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the StartEngCommandResponse == Failed with the reason Door Open, tailgate open etc. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when door is opened after the successful execution of the remote engine start command + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, open the following side door + DoorStateDrvr = 1 + DoorStateRearRH = 1 + DoorStateRearRH = 1 + DoorStatePass = 1 + BonnetState = 1 + TailgateState = 1 +5. Check for the status of the remote operation + +Expected Output: +The system shall check for the prescence of the Key fob inside the vehicle when the door is opened + + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + + If the Keyfob presence is not detecte then the + + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + + If theKeyfob presence is not detected and the door is opened then the system shall trigger unauthorized vehicle entry alert to the cloud + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with door close but unlocked condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed but not locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 3 +5. Check for the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 2 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: +If any of the door status is Open (Vehicle is not locked), BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState +== 0 to applicable ECU's informing about Remote Engine feature is turned off + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked using Keyfob during the execution of the remote start Engine command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed and locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 1 +5. Ensure the below signals from BCM/PEPS/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +6. During the execution of the remote start operation, unlock the vehicle doors using keyfob + VehicleLockState = 3 +7. Check for the status of the remote operation + +Expected Output: +The system shall check compare the BCMRemotePrecheck status update with respect to the vehicle unlock event + + If the unlock event has occured before the BCMRemotePrecheck value update on CAN, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off + + + If the unlock event has occured after the BCMRemotePrecheck value update on CAN as passed and operation is successful, TCM shall look for the door open event followed by KeyFob prescence inside the vehicle to enable PEPS to come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked from the inside (Without input from Keyfob) during the execution of the remote start Engine command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed and locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 1 +5. Ensure the below signals from BCM/PEPS/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +6. During the execution of the remote start operation, unlock the vehicle doors from the inside - master control lock of driver side door (Without Keyfob) + VehicleLockState = 3 +7. Check for the status of the remote operation + +Expected Output: +The system shall trigger unauthorized vehicle entry alert to the cloud as the vehicle is being unlocked without the input of Keyfob + + TCM, on receiving feature disable request from any ECU (Req 46), shall Update RemoteEngAcCmd == 0 to BCM and PEPS to indicate them to turn off RESS feature. + + TCM Shall kill the existing EngAcOnTimer timer. + + TCM shal l update the user about end of RESS feature after successful Ignition Off through platform whenever feature disable request is received from any ECU . TCM shall send response to cloud indicating feature is disabled due to BCM RemoteUsecaseState ,,)), IPC IPC RemoteCheck ) or EMS EMSRemoteCheck ) + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked using Keyfob after successful execution of the remote start Engine command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed and locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 1 +5. Ensure the below signals from BCM/PEPS/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +6. After the successful execution of the remote start operation, unlock the vehicle doors using keyfob + VehicleLockState = 3 +7. Check for the status of the remote operation + +Expected Output: +The system shall check compare the BCMRemotePrecheck status update with respect to the vehicle unlock event + + If the unlock event has occured before the BCMRemotePrecheck value update on CAN, BCM shall publish the BCMRemotePrecheck == 2 to TCM & PEPS and RemoteUsecaseState == 0 to applicable ECU's informing about Remote Engine feature is turned off + + + If the unlock event has occured after the BCMRemotePrecheck value update on CAN as passed and operation is successful, TCM shall look for the door open event followed by KeyFob prescence inside the vehicle to enable PEPS to come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when vehicle is unlocked from the inside (Without input from Keyfob) after successful execution of the remote start Engine command from cloud platform + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0/1 +2. Disconnect the ignition line +3. Publish Remote Engine start Command from app/cloud. +4. Leave all of the door closed and locked + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState =0 + BonnetState = 0 + VehicleLockState = 1 +5. Ensure the below signals from BCM/PEPS/EMS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +6. After the successful execution of the remote start operation, unlock the vehicle doors from the inside - master control lock of driver side door (Without Keyfob) + VehicleLockState = 3 +7. Check for the status of the remote operation + +Expected Output: +The system shall trigger unauthorized vehicle entry alert to the cloud as the vehicle is being unlocked without the input of Keyfob + + TCM, on receiving feature disable request from any ECU (Req 46), shall Update RemoteEngAcCmd == 0 to BCM and PEPS to indicate them to turn off RESS feature. + + TCM Shall kill the existing EngAcOnTimer timer. + + TCM shal l update the user about end of RESS feature after successful Ignition Off through platform whenever feature disable request is received from any ECU . TCM shall send response to cloud indicating feature is disabled due to BCM RemoteUsecaseState ,,)), IPC IPC RemoteCheck ) or EMS EMSRemoteCheck ) + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when the steering is in locked state and the battery voltage is above 9V + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep all the door signals in closed state +4. Keep the steering in lock state and battery voltage above 9V +4. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + +Expected Output: +PEPS shall check for steering lock condition and if it is locked then +1. PEPS shall publish the PEPSRemoteCheck == 1 to TCM and turn on the Ignition relay control. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when all the signals are within the boundary limits in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 +4. CHeck for Powermode = 6 (IGN ON) +5. Check for successful Engine turn ON i.e. + Engine Speed(EngSpd) != 0 and Power mode = 8 + + +Expected Output: +1. TCM shall export the + RemoteEngAcCmd = 1 +2. TCM shall start an EngAcOnTimer with SetTimer value internally. +If all ECUs remote pre-conditions ok , PEPS shall take 5 seconds to crank the vehicle Powermode state to be changed to engine run and command response success shall be exported to cloud/app + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform in vehicle and allow it to run for the set time + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 +4. Check for successful Engine turn ON i.e. + Engine Speed(EngSpd) != 0 +5. Wait for the engine to run till the set timer + + +Expected Output: +1. TCM shall export the + RemoteEngAcCmd = 1 +2. TCM shall start an EngAcOnTimer with SetTimer value internally. +3. Post expiry of EngAcOnTimer (i.e. SetTimer is reached), TCM shall publish RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform . + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Ensure that the remote engine start event is successful in vehicle along with power mode state transition from 0 to 6 to 8 +4. Post confirmation, Publish StopEngAcCommand from cloud/app within expiry of EngAcOnTimer. + +Expected Output: +TCM shall +1. Publish RemoteEngAcCmd = 0 +2. Kill EngAcOnTimer +3. TCM shall update the user about end of RESS feature through platform after successful Ignition Off + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on successful remote start Engine command from cloud platform and till the expiry of EngAconTimer . + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Wait for expiry of EngAcOnTimer. + +Expected Output: +1.TCM shall Publish + RemoteEngAcCmd = 0 +2. TCM shall update the user about end of RESS feature through platform after successful Ignition Off. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform to validate the TCM Precheck on the timer + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. + +Expected Output: +TCM shall StartEngAcCommandWakeLock with timer Par_StartEngAcCommandWakeLock & +1. Publish TM_NMPDU Message over vehicle CAN. +2.Wake up the BCM on hardwired line. +3. Set RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform in IGN ON condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the vehicle in IGN ON condition +2. Publish Remote Engine start Command from app/cloud. +3. Check the below signals from TCM: + RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: +TCM, if Ignition is ON (as per TCM's Ignition Hardwire input), shall ignore the command from platform and shall send +StartEngCommandResponse == Failed as per TMCVP to cloud over GSM/GPRS communication. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with low fuel level in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the vehicle ignition as OFF +2. Publish Remote Engine start Command from app/cloud +4. Leave the fuel level in the vehicle as low +5. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +6. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with non zero vehicle speed and park brake not engaged in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby / Awake + PowerModeState = 0 / 1 +2. Publish Remote Engine start Command from app/cloud +3. Disengage the park brake, Set the vehicle speed at more than 0 Kmph (eg: 10Kmph) in the vehicle by free rolling the vehicle +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 3 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of PEPS on receiving remote start Engine command from TCM with + +IPCRemoteCheck == 1 (VehSpdIC, VehSpdICStatus, APbState,ParkBrkState, LowFuelOutputIC, LowFuelOutputICStatus is within the pluasible limits) + +RemoteUsecaseState == 3 (All conditions of door, tailgate and bonnet are within the plausible limits) + +EMSRemoteCheck == 1 (Clutch, Acc.Pedal, Brake and Gear position, Crank enable status are within the plausible limits) + +RemoteEngAcCmd == 1 (ignition is off) + + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Transmit the following messages + GearShftLvrPos = 0 + CurrGearEms - 1 + BrkPressState - 1 + AccPedPosn - 0 + ClutPressStateEMSNew - 0 + APbState - 2 + ParkBrkState (PP) - 1 + RCrankEnable - 1 + VehSpdIC = 0 + LowFuelOutputIC = 0 + DoorStateDrvr = 0 + DoorStatePass = 0 + DoorStateRearRH = 0 + DoorStateRearLH = 0 + TailgateState = 0 + BonnetState = 0 + LockState = 1 +3. Publish Remote Engine start Command from app/cloud +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = passed + +Expected Output: +PEPS shall wait for 5 seconds before sending the crank pulse to EMS. +Engine shall turn ON + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an usecase is performed in vehicle +(Gear position not in neutral / Park mode) with a valid door status change and key Fob presence inside the vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + PowerModeState = 6 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass + Engine running condition +4. Perform the user entry with the help of a door transition with door unlock using KeyFob +5. Change the current gear / Gear shift lever position value +MT - CurrGearEms != 1 +AT- GearShftLvrPos != 0 + +Expected Output: +Till the RemoteEngAcCmd == 1 signal is received from TCM, PEPS shall +1. Monitor Key +2. If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) and update BCM about +the key status +3. PEPS shall come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(Gear position not in neutral / Park mode) without a door status change and key Fob presence + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + PowerModeState = 6 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass + Engine running condition +4. Without performing door status change, change the current gear / Gear shift lever position value +MT - CurrGearEms != 1 +AT- GearShftLvrPos != 0 + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an usecase is performed in bench / labcar +(break pedal is pressed) with a Valid door status change and KeyFob prescence inside the vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Perform the user entry with the help of a door transition with door unlock using KeyFob +5. Change the break pedal press state to +BrkPressState = 0 + +Expected Output: +Till the RemoteEngAcCmd == 1 signal is received from TCM, PEPS shall +1. Monitor Key +2. If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) and update BCM about +the key status +3. PEPS shall come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(break pedal is pressed) without a Valid door status and KeyFob prescence inside the vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is off +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Without performing dorr status change, change the break pedal press state to pressed state (BrkPressState = 0) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(Acc. Pedal posistion is more than 0%) with a Valid door status change and KeyFob prescence inside the Vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Change the Accelerator pedal position status is implausible +(AccPedPosn > 0 %) + +Expected Output: +Till the RemoteEngAcCmd == 1 signal is received from TCM, PEPS shall +1. Monitor Key +2. If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) and update BCM about +the key status +3. PEPS shall come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(Acc. Pedal posistion is more than 0%) without a Valid door status change and KeyFob prescence outside the Vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Change the Accelerator pedal position status is implausible +(AccPedPosn > 0 %) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(Clutch pedal position is half / fully pressed) with a Valid door status change and KeyFob prescence inside the Vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Perform the user entry with the help of a door transition with door unlock using KeyFob +5. Change the Clutch pedal position is fully / half pressed +ClutPressStateEMSNew = 1 || ClutPressStateEMSNew = 2 + +Expected Output: +Till the RemoteEngAcCmd == 1 signal is received from TCM, PEPS shall +1. Monitor Key +2. If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) and update BCM about +the key status +3. PEPS shall come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(Clutch pedal position is half / fully pressed) without a Valid door status change and KeyFob prescence outside the Vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Without performing a door status change, change the Clutch pedal position is fully / half pressed +ClutPressStateEMSNew = 1 || ClutPressStateEMSNew = 2 + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(MIL is ON) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS / TCM: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote operation, check for the status of MIL +5. Generate error code to turn the MIL ON +MiLampState == 2 + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(RCrankEnalbe signal is diabled) +Applicable only with MT without EPB variant + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote operation, change / confirm for the RCrankEnable = 1 (Disabled) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when a valid keyFob presence is detected in the vehcile with change in door status + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, check for the presence of Key + DoorStateDrvr = 1 + KeyInState = 1 + + + +Expected Output: + If valid key In is detected with change in door status i.e. valid user detected, PEPS shall kill ConfiguralTimer after +receiving RemoteEngAcCmd == 2 && RemoteUsecaseState == 1 indicating normal drive mode (default) + PEPS shall come out of remote mode and allow normal vehicle mode activities. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when a door status change is detected without valid keyfob presence + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, check for the presence of Key + DoorStateDrvr = 1 + KeyInState = 0 + + + +Expected Output: + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when a valid keyfob presence is detected in the vehicle without any door status change + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, check for the presence of Key with all the doors closed + KeyInState = 1 +5. Confirm the Status of Remote start operation + + + +Expected Output: + If valid key In is detected without a change in door status i.e. valid user not detected, then PEPS shall look for the door status change + If any action is done in the vehicle after the KeyFob presence alone without any door status change then TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer to indicate other ECU's to turn off RESS feature. + + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when low fuel event is detected in the vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote start operation, check for the low fuel statsu update in the bench + LowFuelOutputIC = 1 + + +Expected Output: + TCM on receiving RemoteUsecaseState == 0 || IPCRemoteCheck == 2 || (EMSRemoteCheck == 2 || EMSRemoteCheck == 3) shall update +RemoteEngAcCmd == 0 to indicate other ECU's to turn off RESS feature. + TCM shall kill the existing Par_StartEngAcCommandWakeLock /EngAcOnTimer timer + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM and other ECUs when remote engine start is requested through EOL tester tool + +Pre-condition: +1. TCM should allow the remote engine start request via a EOL tester tool as a valid request + + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from the EOL tester tool +3. confirm the status of below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass / Fail + +Expected Output: +All ECUs shall support for checking of RESS feature at EoL through tester/tool. For Ex. ECUs shall allow to start +the engine remotely when Remote Engine Start Stop requested through tester/tool + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when manual overide event of the start stop push button is observed during the execution of remote engine start event (Keyfob not present in the vehicle) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Post the execution / during the execution of the remote engine start operation click on the push button (Start stop) +6. Observe the response in the system + +Expected Output: +The system shall ignore the manual override request as the Keyfob prescene is not detected in the vehicle + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when manual overide event of the start stop push button is observed during the execution of remote engine start event (Keyfob present in the vehicle) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Post the execution / during the execution of the remote engine start operation click on the push button (Start stop) with Keyfob present inside the vehicle +6. Observe the response in the system + +Expected Output: +The system shall consider the manual override and shall terminate the current ongoing operation + +The response shall be sent as successful as the operation is getting overridden after the successful execution + +The end user mobile app shall as well have all the command buttons enabled for further operation + +======================================== + +======================================== + +Test Description: +To test the behaviour of BCM during the successful execution of remote engine start event in vehicle + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Check for the status of Hazard in vehicle +6.Monitor the status of power mode as well whether it has changed from 0 to 6 to 8 + +Expected Output: +Hazard should flash for 3 time on vehicle within 30 secs to acknowledge the successful remote engine start +operation by monitoring PowerModeState signal + +======================================== + +======================================== + +Test Description: +To test the behaviour of BCM, TCM and IPC during the door open event with valid key Fob prescence after a successful execution of remote engine start event + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Perform a door open event with a valid keyfob presence inside the vehicle +6.Check for the status messages from BCM,TCM and IPC + RemoteUsecaseState + IPCRemoteCheck + RemoteEngAcCmd + +Expected Output: + If valid Key In status feedback received from PEPS and valid door/tailgate transition, BCM shall change +RemoteUsecaseState == 1 and share it with TCM, PEPS, EMS, IPC and HU for informing ECU's about start working as +normal Drive and ignore Remote Command precondition checks. + + After receiving RemoteUsecaseState == 1 from BCM, TCM should change RemoteEngAcCmd == 2 (Default) i.e. default state for informing +ECU's about end of RESS feature (deactive) and start working as normal drive. + + After receiving RemoteUsecaseState == 1 && RemoteEngAcCmd == 2 (Default) from BCM and TCM respectively, IPC should change +IPCRemoteCheck == 0 i.e. default state/normal running mode. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM, when a remote start event is converted into normal driving mode and stop command is provided + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from cloud platform +3. confirm the status of below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. POst confirmation of the remote engine start, open the driver door and enter the vehicle with KeyFob +6. Change the gear from park / neutral to drive / 1st gear +7. Try pushing the stop command from the cloud platform to the TCM + +Expected Output: +TCM shall ignore the command as the vehicle drive mode changed from remote mode to normal mode + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with IPCRemotecheck failure scenario in prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud - RemoteEngAcCmd == 1 +3. Set below signals from BCM/PEPS: + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 +4. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with IPCRemotecheck failure scenario in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 1 +2. Publish Remote Engine start Command from app/cloud - RemoteEngAcCmd == 1 +3. Set below signals from BCM/PEPS: + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 +4. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with low fuel level + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud - RemoteEngAcCmd == 1 +3. Leave the fuel level in the Labcar as low (LowFuelOutputIC = 1) +4. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses RemoteEngAcCmd = 0 +StartEngCommandResponse == Failed + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with non zero vehicle speed value + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Set the vehicle speed at more than 0 Kmph (eg: 10Kmph) in the Labcar (VehSpdIC) +4. Check for the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with Epb not in locked state in bench + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud - RemoteEngAcCmd == 1 +3. Disengage the park brake by tranmistting APbState !=2 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with EPB error + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Disengage the park brake by tranmistting APbErrorState != 1 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: + If any of the above signals value are outside set threshold, IPC shall publish the IPCRemoteCheck == 2 to TCM & PEPS. + + If received signal status from IPC is a failure, TCM shall stop the Par_StartEngAcCommandWakeLock and export the +StartEngCommandResponse == Failed with the reason fuel level low, non-zero vehicle speed (calibratable) and park brake +not engaged + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - 5 +4. check the below signals from IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - 6 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - 7 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - 8 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - 9 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - A +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - B +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - E +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 0 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 2 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 3 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 4 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 5 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 6 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 7 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with MT - CurrGearEms are outside the normal precondition limits + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + CurrGearEms - 8 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with +BrkPressState outside set limits / implausible values + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + BrkPressState - 0 +4. check the below signals from IPC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponses + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with AccPedPosn outside set limits / implausible values + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + AccPedPosn - 20% +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with ClutPressStateEMSNew, outside set limits / implausible values + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + ClutPressStateEMSNew - 1,2 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with +APbState, ParkBrkState (PP) +in outside set limits / implausible values + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + APbState !=2 || ParkBrkState (PP) = 0 +4. check the below signals from BCM/PEPS/IPC: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with RCrankEnable +in outside set limits / implausible values + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + RCrankEnable = 0 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 2 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is outside set limits / implausible, then + EMS shall update EMSRemoteCheck == 2 i.e. remote check not successful + On receiving EMSRemoteCheck == 2, TCM shall kill the Par_StartEngAcCommandWakeLock timer. + TCM shall export StartEngCommandResponse == Failed to cloud platform as per TCMCVP via GSM/GPRS communication. + TCM shall publish remote Engine OFF request RemoteEngAcCmd == 0 to BCM, PEPS, EMS and IPC to turn Off RESS feature. + If received signal status is a failure i.e. EMSRemoteCheck == 2, PEPS shall turn OFF Ignition relay and TCM shall monitor +PowerModeState signal for feedback + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with GearShftLvrPos, CurrGearEms + BrkPressState, +AccPedPosn, +ClutPressStateEMSNew, +APbState, ParkBrkState (PP), +RCrankEnable +in within the set limits / plausible values + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Transmit the following in induvidual iterations + GearShftLvrPos - 0 + CurrGearEms - 1 + BrkPressState - 1 + AccPedPosn - 0 + ClutPressStateEMSNew - 0 + APbState - 2 + ParkBrkState (PP) - 1 + RCrankEnable - 1 +4. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 +5. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + EMS shall update EMSRemoteCheck == 1 (remote check successful), no action for TCM. + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and BCM preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and PEPS preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 2 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and IPC preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and EMS preconditions failed and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform and RemoteUseCaseState OFF and others are passed + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=120 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=150 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=90 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=130 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=60 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=160 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=140 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=300 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=180 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud with EngineOnTime=300 +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 8 +4. Check for the below signal responses + RemoteEngAcCmd + StartEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 1 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 0 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState =0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform.+E389:I389 + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote stop Engine command from cloud platform. + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. TCM shall export remote command response as success + +Test Procedure: +1. Verify TCM shall export remote command response as success +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine stop Command from app/cloud +3. check the below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + PowerModeState = 0 RemoteUsecaseState = 0 +4. Check for the below signal responses + RemoteEngAcCmd + StopEngCommandResponse + +Expected Output: +If bit value of above signals is within set limits / plausible, then + Should continue to publish RemoteEngAcCmd == 0 to BCM, PEPS, EMS & IPC periodically + TCM shall export remote command response as success + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench / labcar +(RCrankEnableStatus signal is implausible) +Applicable only with MT without EPB variant + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 6 / Ignition is ON +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. After successful remote operation, check for the RCrankEnableStatus = 2 (Implausible) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(Clutch pedal position signal is implausible) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Change the Clutch pedal position signal is implausible +ClutPressEMSStatusNew = 2 + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in bench / labcar +(Gear position status signal is implausible) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 / Ignition is ON + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Change the current gear / Gear shift lever position value +MT - CurrGearEmsStatus = 2 (Implausible) +AT- GearShftLvrPosStatus = 2 (Implausible) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(Brake pedal position status is implausible) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Change the break pedal position status is implausible +(BrkPressStatus = 2) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM after successfully executing remote engine start operation when an abusive usecase is performed in vehicle +(Acc. Pedal position status signal is impluasible) + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 / Ignition is OFF +2. Publish Remote Engine start Command from app/cloud +3. Ensure the below signals from BCM/PEPS: + PowerModeState = 6 + BCMRemotePrecheck = 2 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 2 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 0 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 1 + StartEngCommandResponse = Pass +4. Change the Accelerator pedal position status is implausible +AccPedPosnStatus = 2 (implausible) + +Expected Output: +1. Then EMS will turn off Engine and send +EMSRemoteCheck == 3 to TCM. + +2. TCM shall provide generic +feedback to user for turning off +RESS feature due to abuse case +scenario. + +3. TCM can monitor these signals to +indicate the user about specific +reason for turning off engine due +to abuse case scenario and to +publish relevant message to user +(PP). + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM when a door open event is occuring during the execution of remote engine start event + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from cloud platform +3. Immediately after the SMS Wake up is confirmed in the system, perform a door open event +4. confirm the status of below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 2 + EMSRemoteCheckStatus = 0 + RemoteEngAcCmd = 0 + StartEngCommandResponse = Pass +5. Check for the status of the response + +Expected Output: +The moment the door open event is observed during the execution of Remote engine start operation, if valid key Fob prescence is not detected +Then + BCMRemotePrecheck = 2 + RemoteUsecaseState = 0 +PEPS shall turn off the Ignition Relay and TCM shall monitor PowerModeState signal to understand vehicle state. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when remoteusecase status signal is implausible + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 2 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when remoteusecase status signal is not available + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 3 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + EMSRemoteCheck = 1 + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when remoteusecase status signal is correct + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 2 + EMSRemoteCheck = 1 + + +Expected Output: +TCM shall set + RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when IPCRemoteCheckStatus status signal is not available + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 3 + EMSRemoteCheck = 1 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when IPCRemoteCheckStatus status signal is implausible + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 2 + EMSRemoteCheck = 1 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when IPCRemoteCheckStatus status signal is correct + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when EMSRemoteCheckStatus status signal is implausible + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 2 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when EMSRemoteCheckStatus status signal is not available + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 3 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform when EMSRemoteCheckStatus status signal is correct + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + RemoteUsecaseStateStatus = 0 + PEPSRemoteCheck = 1 + IPCRemoteCheck = 1 + IPCRemoteCheckStatus = 0 + EMSRemoteCheck = 1 + EMSRemoteCheckStatus = 3 + +Expected Output: +TCM shall set + RemoteEngAcCmd = 1 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with Steering unlocked condition in prestandby power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep steering unlock by providing the following value to the signal + LockStateESCL = 0 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed with reason - steering not locked etc. +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with Steering unlocked condition in awake power mode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake (Toggle the ignition switch and before the CAN bus goes to sleep) + Ensure the PowerModeState = 1 +2. Publish Remote Engine start Command from app/cloud. +3. Keep steering unlock by providing the following value to the signal + LockStateESCL = 0 + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed with reason - steering not locked etc. +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with Steering unlocked condition + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Keep steering of the vehicle in locked condition + to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 1 + +Expected Output: +PEPS shall check for battery voltage and if it is above 9V +1. PEPS shall publish the PEPSRemoteCheck == 1 to TCM and turn on the Ignition relay control. + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with low battery voltage in prestandby powermode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Pre Standby + PowerModeState = 0 +2. Publish Remote Engine start Command from app/cloud. +3. Set battery voltage (V<9V) to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed with reason low battery voltage etc. +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +Test Description: +To test the behaviour of TCM on receiving remote start Engine command from cloud platform with low battery voltage in awake powermode + +Pre-condition: +1. TCM should be with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Awake (Toggle the ignition switch and before the CAN bus goes to sleep) + Ensure the PowerModeState = 1 +2. Publish Remote Engine start Command from app/cloud. +3. Set battery voltage (V<9V) to set below signals from BCM/PEPS: + BCMRemotePrecheck = 1 + RemoteUsecaseState = 3 + PEPSRemoteCheck = 2 + +Expected Output: +1. TCM shall export the + StartEngCommandResponse = Failed with reason low battery voltage etc. +2. TCM shall set + RemoteEngAcCmd = 0 + +======================================== + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as today +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall send the Owner's birthday notification alert to TCU + + + + +Expected Output: + +I. Verify the following Message in the Cloud: + BirthdayTriggerCmd + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 1 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + + +Test Procedure: + + +1. Set the Date of Birth through the Mobile App as not today +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall not send the Owner's birthday notification alert to TCU + + + +Expected Output: + + +I. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 0 + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as today +2. Set the Power Mode as Crank + Powermode state = 9 +3. Cloud shall send the Owner's birthday notification alert to TCU + + + +Expected Output: + +I. Verify the following Message in the Cloud: + BirthdayTriggerCmd + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 1 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as not today +2. Set the Power Mode as Crank + Powermode state = 9 +3. Cloud shall not send the Owner's birthday notification alert to TCU + + + +Expected Output: + + + +I. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as today +2. Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall send the Owner's birthday notification alert to TCU + + + +Expected Output: + +I. Verify the following Message in the Cloud: + BirthdayTriggerCmd + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 1 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as not today +2. Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall not send the Owner's birthday notification alert to TCU + + + +Expected Output: + + + +I. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + + +Test Procedure: + +1. Set the Marriage Anniversary Date through the Mobile App as today +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall send the Owner's marriage anniversary notification alert to TCU + + + +Expected Output: + +I. Verify the following Message in the Cloud: + AnniversaryTriggerCmd + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + + +Test Procedure: + +1. Set the Marriage Anniversary Date through the Mobile App as not today +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall not send the Owner's marriage anniversary notification alert to TCU + + + +Expected Output: + + +I. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 0 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + + +Test Procedure: + +1. Set the Marriage Anniversary Date through the Mobile App as today +2. Set the Power Mode as Crank + Powermode state = 9 +3. Cloud shall send the Owner's marriage anniversary notification alert to TCU + + + +Expected Output: + +I. Verify the following Message in the Cloud: + AnniversaryTriggerCmd + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 1 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + + +Test Procedure: + +1. Set the Marriage Anniversary Date through the Mobile App as not today +2. Set the Power Mode as Crank + Powermode state = 9 +3. Cloud shall not send the Owner's marriage anniversary notification alert to TCU + + + +Expected Output: + + +I. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 0 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + + +Test Procedure: + +1. Set the Marriage Anniversary Date through the Mobile App as today +2. Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall send the Owner's marriage anniversary notification alert to TCU + + + +Expected Output: + +I. Verify the following Message in the Cloud: + AnniversaryTriggerCmd + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + + +Test Procedure: + +1. Set the Marriage Anniversary Date through the Mobile App as not today +2. Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall not send the Owner's marriage anniversary notification alert to TCU + + + +Expected Output: + + + +I. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Set the Car Anniversary date. + + +Test Procedure: + +1. Set the Car Anniversary Date as today (How to set the date need to be discussed with TML) +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall send the Car Anniversary notification alert to TCU + + + +Expected Output: + +I. Verify the following Message in the Cloud: + CarAnniversaryTriggerCmd + +II. Verify the Following Messages in CAN bus from TCU to IPC : + CarAnniversary = 1 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Set the Car Anniversary date. + + +Test Procedure: + +1. Set the Car Anniversary Date as not today (How to set the date need to be discussed with TML) +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall not send the Car Anniversary notification alert to TCU + + + +Expected Output: + + +I. Verify the Following Messages in CAN bus from TCU to IPC : + CarAnniversary = 0 + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Set the Car Anniversary date. + + +Test Procedure: + +1. Set the Car Anniversary Date as today (How to set the date need to be discussed with TML) +2. Set the Power Mode as Crank + Powermode state = 9 +3. Cloud shall send the Car Anniversary notification alert to TCU + + + +Expected Output: + +I. Verify the following Message in the Cloud: + CarAnniversaryTriggerCmd + +II. Verify the Following Messages in CAN bus from TCU to IPC : + CarAnniversary = 1 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Set the Car Anniversary date. + + +Test Procedure: + +1. Set the Car Anniversary Date as not today (How to set the date need to be discussed with TML) +2. Set the Power Mode as Crank + Powermode state = 9 +3. Cloud shall not send the Car Anniversary notification alert to TCU + + + +Expected Output: + + +I. Verify the Following Messages in CAN bus from TCU to IPC : + CarAnniversary = 0 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Set the Car Anniversary date. + + +Test Procedure: + +1. Set the Car Anniversary Date as today (How to set the date need to be discussed with TML) +2. Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall send the Car Anniversary notification alert to TCU + + + +Expected Output: + +I. Verify the following Message in the Cloud: + CarAnniversaryTriggerCmd + +II. Verify the Following Messages in CAN bus from TCU to IPC : + CarAnniversary = 1 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Set the Car Anniversary date. + +Test Procedure: + +1. Set the Car Anniversary Date as not today (How to set the date need to be discussed with TML) +2. Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall not send the Car Anniversary notification alert to TCU + + + +Expected Output: + + +I. Verify the Following Messages in CAN bus from TCU to IPC : + CarAnniversary = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary, Marriage anniversary and Owners birthday notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud +5) Set the Car anniversary date. + + +Test Procedure: + +1. Set the Car Anniversary Date, Marriage anniversary date, Birthday date through the Mobile App as today (How to set the vehicle sale date need to be discussed with TML) +2. Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall send the notification alerts to TCU + + + +Expected Output: + +I. Verify the following Message in the Cloud: + CarAnniversaryTriggerCmd + BirthdayTriggerCmd + AnniversaryTriggerCmd + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 1 + OwnersAnniversary = 1 + CarAnniversary = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners marriage Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + + +Test Procedure: + +1. Set the marriage Anniversary Date through the Mobile App as on 29th Feb 2020 +2. Change the System date as on 29th Feb 2020 +3. Set the Power Mode as Running + Powermode state = 8 + + + + + +Expected Output: + +I. Verify the following Message in the Cloud: + AnniversaryTriggerCmd + + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the marriage Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Owner marriage Anniversary Date through the Mobile App as on 29th Feb 2020 +3. Change the System date as on 29th Feb 2020 + + + + + +Expected Output: + +I. Verify the following Message in the Cloud: + AnniversaryTriggerCmd + + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owner marriage Anniversary notification alert and type from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. +- App sends the updated data to Cloud + + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Owner marriage Anniversary Date through the Mobile App as today + + + + +Expected Output: + +I. Verify the following Message in the Cloud: + AnniversaryTriggerCmd + + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + +Test Procedure: + +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the below inputs from IPC + OwnersBirthdayResponse = 1 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + BirthdayTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + +Test Procedure: + +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the below inputs from IPC + OwnersBirthdayResponse = 0 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + BirthdayTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the below inputs from IPC + OwnersBirthdayResponse = 1 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + BirthdayTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the below inputs from IPC + OwnersBirthdayResponse = 0 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + BirthdayTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the below inputs from IPC + OwnersBirthdayResponse = 1 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + BirthdayTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the below inputs from IPC + OwnersBirthdayResponse = 0 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + BirthdayTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage anniversary response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the below inputs from IPC + OwnersAnniversaryResponse = 1 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + AnniversaryTriggerCmdResponse + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage anniversary response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the below inputs from IPC + OwnersAnniversaryResponse = 0 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + AnniversaryTriggerCmdResponse + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage anniversary response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the below inputs from IPC + OwnersAnniversaryResponse = 1 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + AnniversaryTriggerCmdResponse + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage anniversary response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the below inputs from IPC + OwnersAnniversaryResponse = 0 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + AnniversaryTriggerCmdResponse + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage anniversary response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the below inputs from IPC + OwnersAnniversaryResponse = 1 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + AnniversaryTriggerCmdResponse + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage anniversary response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the below inputs from IPC + OwnersAnniversaryResponse = 0 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + AnniversaryTriggerCmdResponse + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car anniversary response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the below inputs from IPC + CarAnniversaryResponse = 1 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + CarAnniversaryTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car anniversary response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the below inputs from IPC + CarAnniversaryResponse = 0 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + CarAnniversaryTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car anniversary response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the below inputs from IPC + CarAnniversaryResponse = 1 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + CarAnniversaryTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car anniversary response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the below inputs from IPC + CarAnniversaryResponse = 0 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + CarAnniversaryTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car anniversary response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the below inputs from IPC + CarAnniversaryResponse = 1 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + CarAnniversaryTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car anniversary response from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the below inputs from IPC + CarAnniversaryResponse = 0 + + + + +Expected Output: + +I. Verify the following Command Response from TCU to Cloud + CarAnniversaryTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive all Owner birthday, Owner marriage anniversary and the Car Anniversary responses from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP + + + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the below inputs from IPC + OwnersBirthdayResponse = 1 + OwnersAnniversaryResponse = 1 + CarAnniversaryResponse = 1 + + + +Expected Output: + + +I. Verify the following Command Responses from TCU to Cloud + BirthdayTriggerCmdResponse + AnniversaryTriggerCmdResponse + CarAnniversaryTriggerCmdResponse + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud +3)IPC shall display/not display the birthday message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as today +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall send the Owner's birthday notification alert to TCU +4. Verify the outputs + + + + +Expected Output: + +I. Verify the following in the IPC + "Happy Birthday!" message shall be displayed on screen +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 1 + +III. Verify the following Message in the Cloud. + BirthdayTriggerCmd + +IV. Verify the following Response message in CAN from IPC to TCU: + OwnersBirthdayResponse = 1 + +V. Verify the following Command Response from TCU to Cloud + BirthdayTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud +3)IPC shall display/not display the birthday message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as not today +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall not send the Owner's birthday notification alert to TCU +4. Verify the outputs + + + + +Expected Output: + +I. Verify the following in the IPC + "Happy Birthday!" message shall not be displayed + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 0 + +III. Verify the following Response message in CAN Bus from IPC to TCU: + OwnersBirthdayResponse = 0 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud +3)IPC shall display/not display the birthday message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as today +2. Set the Power Mode as Crank + Powermode state = 9 +3. Cloud shall send the Owner's birthday notification alert to TCU +4. Verify the outputs + + +Expected Output: + +I. Verify the following in the IPC + "Happy Birthday!" message shall be displayed on screen + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 1 + +III. Verify the following Message in the Cloud. + BirthdayTriggerCmd + +IV. Verify the following Response message in CAN Bus from IPC to TCU within 2 Sec: + OwnersBirthdayResponse = 1 + + +V. Verify the following Command Response from TCU to Cloud + BirthdayTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud +3)IPC shall display/not display the birthday message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as not today +2. Set the Power Mode as Crank + Powermode state = 9 +3. Cloud shall not send the Owner's birthday notification alert to TCU +4. Verify the outputs + + + + +Expected Output: + +I. Verify the following in the IPC + "Happy Birthday!" message shall not be displayed + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 0 + +III. Verify the following Response message in CAN Bus from IPC to TCU: + OwnersBirthdayResponse = 0 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud +3)IPC shall display/not display the birthday message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as today +2. Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall send the Owner's birthday notification alert to TCU +4. Verify the outputs + + + + +Expected Output: + +I. Verify the following in the IPC + "Happy Birthday!" message shall be displayed on screen +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 1 + +III. Verify the following Message in the Cloud. + BirthdayTriggerCmd + +IV. Verify the following Response message in CAN Bus from IPC to TCU within 2 Sec:: + OwnersBirthdayResponse = 1 + +V. Verify the following Command Response from TCU to Cloud + BirthdayTriggerCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud +3)IPC shall display/not display the birthday message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as not today +2. Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall not send the Owner's birthday notification alert to TCU +4. Verify the outputs + + + + +Expected Output: + +I. Verify the following in the IPC + "Happy Birthday!" message shall not be displayed + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 0 + +III. Verify the following Response message in CAN Bus from IPC to TCU: + OwnersBirthdayResponse = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage Anniversary notification alert and notification type from Cloud +3)IPC shall display/not display the anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Marriage Anniversary Date through the Mobile App as today +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall send the Owner's marriage anniversary notification alert to TCU +4. Verify the outputs + + + +Expected Output: + +I. Verify the following in the IPC + "Happy Marriage Anniversary!" message shall be displayed +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 1 + +III. Verify the following Message in the Cloud. + AnniversaryTriggerCmd + +IV. Verify the following Response message in CAN Bus from IPC to TCU: + OwnersAnniversaryResponse = 1 + +V. Verify the following Command Response from TCU to Cloud + AnniversaryTriggerCmdResponse + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage Anniversary notification alert and notification type from Cloud +3)IPC shall display/not display the anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Marriage Anniversary Date through the Mobile App as not today +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall not send the Owner's marriage anniversary notification alert to TCU +4. Verify the outputs + + +Expected Output: + +I. Verify the following in the IPC + "Happy Marriage Anniversary!" message shall not be displayed + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 0 + +III. Verify the following Response message in CAN Bus from IPC to TCU: + OwnersAnniversaryResponse = 0 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage Anniversary notification alert and notification type from Cloud +3)IPC shall display/not display the anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Marriage Anniversary Date through the Mobile App as today +2. Set the Power Mode as Crank + Powermode state = 9 +3. Cloud shall send the Owner's marriage anniversary notification alert to TCU +4. Verify the outputs + + + +Expected Output: + +I. Verify the following in the IPC + "Happy Marriage Anniversary!" message shall be displayed + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 1 + +III. Verify the following Message in the Cloud. + AnniversaryTriggerCmd + +IV. Verify the following Response message in CAN Bus from IPC to TCU: + OwnersAnniversaryResponse = 1 + +V. Verify the following Command Response from TCU to Cloud + AnniversaryTriggerCmdResponse + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage Anniversary notification alert and notification type from Cloud +3)IPC shall display/not display the anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Marriage Anniversary Date through the Mobile App as not today +2. Set the Power Mode as Crank + Powermode state = 9 +3. Cloud shall not send the Owner's marriage anniversary notification alert to TCU +4. Verify the outputs + + +Expected Output: + +I. Verify the following in the IPC + "Happy Marriage Anniversary!" message shall not be displayed + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 0 + +III. Verify the following Response message in CAN Bus from IPC to TCU: + OwnersAnniversaryResponse = 0 + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage Anniversary notification alert and notification type from Cloud +3)IPC shall display/not display the anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Marriage Anniversary Date through the Mobile App as today +2. Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall send the Owner's marriage anniversary notification alert to TCU +4. Verify the outputs + + + +Expected Output: + +I. Verify the following in the IPC + "Happy Marriage Anniversary!" message shall be displayed +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 1 + +III. Verify the following Message in the Cloud. + AnniversaryTriggerCmd + +IV. Verify the following Response message in CAN Bus from IPC to TCU: + OwnersAnniversaryResponse = 1 + +V. Verify the following Command Response from TCU to Cloud + AnniversaryTriggerCmdResponse + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Marriage Anniversary notification alert and notification type from Cloud +3)IPC shall display/not display the anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Marriage Anniversary Date through the Mobile App as not today +2. Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall not send the Owner's marriage anniversary notification alert to TCU +4. Verify the outputs + + +Expected Output: + +I. Verify the following in the IPC + "Happy Marriage Anniversary!" message shall not be displayed + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 0 + +III. Verify the following Response message in CAN Bus from IPC to TCU: + OwnersAnniversaryResponse = 0 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and notification type from Cloud +3) IPC shall display/not display the Car anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Set the Car Anniversary date +5) Instrument Cluster (IPC) display the customized messages on the screen + + +Test Procedure: + +1. Set the Car Anniversary Date as today (How to set the date need to be discussed with TML) +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall send the Car Anniversary notification alert to TCU +4. Verify the outputs + + +Expected Output: + +I. Verify the following in the IPC + "It's your Car's Birthday. Congratulations!" message shall be displayed +II. Verify the Following Messages in CAN bus from TCU to IPC : + CarAnniversary = 1 + +III. Verify the following Message in the Cloud. + CarAnniversaryTriggerCmd + +IV. Verify the following Response message in CAN Bus from IPC to TCU: + CarAnniversaryResponse = 1 + +V. Verify the following Command Response from TCU to Cloud + CarAnniversaryTriggerCmdResponse + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and notification type from Cloud +3) IPC shall display/not display the Car anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Set the Car Anniversary date +5) Instrument Cluster (IPC) display the customized messages on the screen + + +Test Procedure: + +1. Set the Car Anniversary Date as not today (How to set the date need to be discussed with TML) +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall not send the Car Anniversary notification alert to TCU +4. Verify the outputs + + +Expected Output: + +I. Verify the following in the IPC + "It's your Car's Birthday. Congratulations!" message shall not be displayed + +II. Verify the Following Messages in CAN bus from TCU to IPC : + CarAnniversary = 0 + +III. Verify the following Response message in CAN Bus from IPC to TCU: + CarAnniversaryResponse = 0 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and notification type from Cloud +3) IPC shall display/not display the Car anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Set the Car Anniversary date +5) Instrument Cluster (IPC) display the customized messages on the screen + + +Test Procedure: + +1. Set the Car Anniversary Date as today (How to set the date need to be discussed with TML) +2. Set the Power Mode as Crank + Powermode state = 9 +3. Cloud shall send the Car Anniversary notification alert to TCU +4. Verify the outputs + + + +Expected Output: + +I. Verify the following in the IPC + "It's your Car's Birthday. Congratulations!" message shall be displayed +II. Verify the Following Messages in CAN bus from TCU to IPC : + CarAnniversary = 1 + +III. Verify the following Message in the Cloud. + CarAnniversaryTriggerCmd + +IV. Verify the following Response message in CAN Bus from IPC to TCU: + CarAnniversaryResponse = 1 + +V. Verify the following Command Response from TCU to Cloud + CarAnniversaryTriggerCmdResponse + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and notification type from Cloud +3) IPC shall display/not display the Car anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Set the Car Anniversary date +5) Instrument Cluster (IPC) display the customized messages on the screen + + +Test Procedure: +1. Set the Car Anniversary Date as not today(How to set the date need to be discussed with TML) +2. Set the Power Mode as Crank + Powermode state = 9 +3. Cloud shall not send the Car Anniversary notification alert to TCU + + + +Expected Output: + +I. Verify the following in the IPC + "It's your Car's Birthday. Congratulations!" message shall not be displayed + +II. Verify the Following Messages in CAN bus from TCU to IPC : + CarAnniversary = 0 + +III. Verify the following Response message in CAN Bus from IPC to TCU: + CarAnniversaryResponse = 0 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and notification type from Cloud +3) IPC shall display/not display the Car anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Set the Car Anniversary date +5) Instrument Cluster (IPC) display the customized messages on the screen + + +Test Procedure: + +1. Set the Car Anniversary Date as today (How to set the date need to be discussed with TML) +2. Set the Power Mode as Running + Powermode state = 8 +3. Verify the outputs + + + +Expected Output: + +I. Verify the following in the IPC + "It's your Car's Birthday. Congratulations!" message shall be displayed +II. Verify the Following Messages in CAN bus from TCU to IPC : + CarAnniversary = 1 + +III. Verify the following Message in the Cloud. + CarAnniversaryTriggerCmd + +IV. Verify the following Response message in CAN Bus from IPC to TCU: + CarAnniversaryResponse = 1 + + V. Verify the following Command Response from TCU to Cloud + CarAnniversaryTriggerCmdResponse + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and notification type from Cloud +3) IPC shall display/not display the Car anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Set the Car Anniversary date +5) Instrument Cluster (IPC) display the customized messages on the screen + + +Test Procedure: + +1. Set the Car Anniversary Date as not today (How to set the date need to be discussed with TML) +2. Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall not send the Car Anniversary notification alert to TCU +4. Verify the outputs + + +Expected Output: + +I. Verify the following in the IPC + "It's your Car's Birthday. Congratulations!" message shall not be displayed + +II. Verify the Following Messages in CAN bus from TCU to IPC : + CarAnniversary = 0 + +III. Verify the following Response message in CAN Bus from IPC to TCU: + CarAnniversaryResponse = 0 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive both the Owners birthday and the Owner marriage Anniversary notification alert and notification type from Cloud +3) IPC shall display/not display both Birthday message and the Car anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as today +2. Set the Car Anniversary Date as today (How to set the date need to be discussed with TML) +3. Set the Power Mode as Running + Powermode state = 8 +4. Verify the outputs + + + +Expected Output: + +I. Verify the following in the IPC. + Both "Happy Birthday!" message and "It's your Car's Birthday. Congratulations!" shall be displayed alternatively as per a defined time. +Also check the priority at which the messages are displayed + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 1 + CarAnniversary = 1 + +III. Verify the following Message in the Cloud. + BirthdayTriggerCmd + CarAnniversaryTriggerCmd + +IV. Verify the following Response message in CAN Bus from IPC to TCU: + OwnersBirthdayResponse = 1 + CarAnniversaryResponse = 1 + +V. Verify the following Command Responses from TCU to Cloud + BirthdayTriggerCmdResponse + CarAnniversaryTriggerCmdResponse + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive both the Owners birthday and the Owners marriage Anniversary notification alert and notification type from Cloud +3) IPC shall display/not display both Birthday message and the Marriage anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as today +2. Set the Owner's marriage anniversary date through the Mobile App as today +3. Set the Power Mode as Crank + Powermode state = 9 +4. Verify the outputs + + + +Expected Output: + +I. Verify the following in the IPC. + Both "Happy Birthday!" message and "Happy Marriage Anniversary!" shall be displayed alternatively as per a defined time. +Also check the priority at which the messages are displayed + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 1 + OwnersAnniversary = 1 + +III. Verify the following Message in the Cloud. + BirthdayTriggerCmd + AnniversaryTriggerCmd + + +IV. Verify the following Response message in CAN Bus from IPC to TCU: + OwnersBirthdayResponse = 1 + OwnersAnniversaryResponse = 1 + +V. Verify the following Command Responses from TCU to Cloud + BirthdayTriggerCmdResponse + AnniversaryTriggerCmdResponse + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive both the Owners marriage Anniversary and Car anniversary notification alert and notification type from Cloud +3) IPC shall display/not display both Anniversary message and Car anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + +Test Procedure: + +1. Set the Owner's marriage anniversary date through the Mobile App as today +2. Set the Car Anniversary Date as today (How to set the date need to be discussed with TML) +3. Set the Power Mode as Ignition On + Powermode state = 6 +4. Verify the outputs + +Expected Output: + +I. Verify the following in the IPC. + Both "Happy Marriage Anniversary!" and "It's your Car's Birthday. Congratulations!" shall be displayed alternatively as per a defined time. +Also check the priority at which the messages are displayed + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersAnniversary = 1 + CarAnniversary = 1 + +III. Verify the following Message in the Cloud. + AnniversaryTriggerCmd + CarAnniversaryTriggerCmd + +IV. Verify the following Response message in CAN Bus from IPC to TCU: + OwnersAnniversaryResponse = 1 + CarAnniversaryResponse = 1 + +V. Verify the following Command Responses from TCU to Cloud + AnniversaryTriggerCmdResponse + CarAnniversaryTriggerCmdResponse + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive all three, Owners birthday, Owners marriage Anniversary and Car anniversary notification alert and notification type from Cloud +3) IPC shall display all three Birthday, Anniversary message and Car anniversary message based on TCU inputs. + +Pre-condition: +1) The Lab car set up is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) Fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date + - Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as today +2. Set the Owner's marriage anniversary date through the Mobile App as today +3. Set the Car Anniversary Date as today (How to set the date need to be discussed with TML) +4. Set the Power Mode as Ignition On + Powermode state = 6 +5. Verify the outputs + + + + +Expected Output: + +I. Verify the following in the IPC. + "Happy Birthday!" , "Happy Marriage Anniversary!" and "It's your Car's Birthday. Congratulations!" messages shall be displayed alternatively as per a defined time. +Also check the priority at which the messages are displayed + +II. Verify the Following Messages in CAN bus from TCU to IPC : + OwnersBirthday = 1 + OwnersAnniversary = 1 + CarAnniversary = 1 + +III. Verify the following Message in the Cloud. + BirthdayTriggerCmd + AnniversaryTriggerCmd + CarAnniversaryTriggerCmd + +IV. Verify the following Response message in CAN Bus from IPC to TCU: + OwnersBirthdayResponse = 1 + OwnersAnniversaryResponse = 1 + CarAnniversaryResponse = 1 + +V. Verify the following Command Responses from TCU to Cloud + BirthdayTriggerCmdResponse + AnniversaryTriggerCmdResponse + CarAnniversaryTriggerCmdResponse + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud + + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + + + + +Test Procedure: +1. Set the Power Mode as Ignition OFF + Powermode state = 0 +2. Wakeup the TCU by sending SMS to it from mobile phone +3. Cloud shall send the Owner's birthday command to TCU + + +Expected Output: +I. Verify that TCU is getting wakeup on receiving SMS +II. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersBirthDay=1 on CAN after receiving command. +II. IPC will not give response to command as IGN is OFF. +III. Verify that animation should not display on IPC screen + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud +3)IPC shall display/not display the birthday message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as today +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall send the Owner's birthday notification alert to TCU +4. TCU shall send CAN signals to IPC to display Birthday message +5.Verify the outputs + + + +Expected Output: +I. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersBirthDay=1 on CAN after receiving command. +II. Verify that IPC_Telematics_Event_Info_Resp message with signal OwnersBirthDayResponse=1 is published by IPC +III. Verify the following in the IPC + "Happy Birthday!" message shall be displayed on screen for 4 seconds only. +IV. Verify the following Command Response from TCU to Cloud BirthDayTriggerCmdResponse + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud +3)IPC shall display/not display the birthday message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen +6) Set the Date of Birth through the Mobile App as today + + + + +Test Procedure: + + +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Change the Date of Birth through Mobile App as not today +3. Turn Ignition off +4. Turn Ignition On +5. Birthday messages shall not be displayed in IPC + + + + + +Expected Output: + +I. Verify the following in the IPC + "Happy Birthday!" message shall not be displayed + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud +3)IPC shall display/not display the birthday message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + + +1. Set the Date of Birth through the Mobile App as today +2.Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall send the Owner's birthday notification alert to TCU +4. TCU shall send CAN signals to IPC to display Birthday message +5.Verify the outputs + + + + + +Expected Output: +I. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersBirthDay=1 on CAN after receiving command. +II. Verify that IPC_Telematics_Event_Info_Resp message with signal OwnersBirthDayResponse=1 is published by IPC +III. Verify the following in the IPC + "Happy Birthday!" message shall be displayed on screen for 4 seconds only. +IV. Verify the following Command Response from TCU to Cloud BirthDayTriggerCmdResponse + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud +3)IPC shall display/not display the birthday message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen +6) Set the Date of Birth through the Mobile App as today + + + +Test Procedure: + +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Change the Date of Birth through Mobile App as not today +3. Turn Ignition off +4. Turn Ignition On and start Running +5. Birthday messages shall not be displayed in IPC + + + +Expected Output: + + +I. Verify the following in the IPC + "Happy Birthday!" message shall not be displayed + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners marriage Anniversary notification alert and notification type from Cloud +3)IPC shall display/not display the anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Marriage Anniversary Date through the Mobile App as today +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall send the Owner's marriage anniversary notification alert to TCU +4. TCU shall send CAN signals to IPC to display marriage anniversary message +5.Verify the outputs + + + +Expected Output: +I. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersAnniversary=1 on CAN after receiving command. +II. Verify that IPC_Telematics_Event_Info_Resp message with signal OwnersAnniverssaryResponse=1 is published by IPC +III. Verify the following in the IPC + " Happy Marriage Anniversary!" message shall be displayed on screen for 4 seconds only. +IV. Verify the following Command Response from TCU to Cloud OwnersAnniversaryCmdResponse + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners marriage Anniversary notification alert and notification type from Cloud +3)IPC shall display/not display the anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen +6) Set the Marriage Anniversary Date through the Mobile App as today + + + + +Test Procedure: + +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Change the marriage anniversary date through Mobile App as not today +3. Turn Ignition off +4. Turn Ignition On +5. Owner's marriage anniversary messages shall not be displayed in IPC + + + +Expected Output: + +I. Verify the following in the IPC + "Happy Marriage Anniversary!" message shall not be displayed + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners marriage Anniversary notification alert and notification type from Cloud +3)IPC shall display/not display the anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Marriage Anniversary Date through the Mobile App as today +2. Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall send the Owner's marriage anniversary notification alert to TCU +4. TCU shall send CAN signals to IPC to display marriage anniversary message +5.Verify the outputs + + + + +Expected Output: +I. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersAnniversary=1 on CAN after receiving command. +II. Verify that IPC_Telematics_Event_Info_Resp message with signal OwnersAnniverssaryResponse=1 is published by IPC +III. Verify the following in the IPC + " Happy Marriage Anniversary!" message shall be displayed on screen for 4 seconds only. +IV. Verify the following Command Response from TCU to Cloud OwnersAnniversaryCmdResponse + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners marriage Anniversary notification alert and notification type from Cloud +3)IPC shall display/not display the anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen +6) Set the marriage anniversary date through Mobile App as today + + + + +Test Procedure: + +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Change the marriage anniversary date through Mobile App as not today +3. Turn Ignition off +4. Turn Ignition On and start Running +5. Owner's marriage anniversary messages shall not be displayed in IPC + +Expected Output: + +I. Verify the following in the IPC + "Happy Marriage Anniversary!" message shall not be displayed + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and notification type from Cloud +3)IPC shall display/not display the anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Car Anniversary Date as today +2. Set the Power Mode as Ignition On + Powermode state = 6 +3. Cloud shall send the Car Anniversary notification alert to TCU +4. TCU shall send CAN signals to IPC to display Car anniversary message +5.Verify the outputs + + + +Expected Output: +I. Verify that TCU publishes Telematics_IPC_Event_Info message with signal CarAnniversary=1 on CAN after receiving command. +II. Verify that IPC_Telematics_Event_Info_Resp message with signal CarAnniverssaryResponse=1 is published by IPC +III. Verify the following in the IPC + "It's your Car's Birthday. Congratulations!" message shall be displayed on screen for 4 seconds only. +IV. Verify the following Command Response from TCU to Cloud CarAnniversaryCmdResponse + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and notification type from Cloud +3)IPC shall display/not display the anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen +6) Set the Car anniversary date as today + + + + +Test Procedure: + + +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Change the Car anniversary date through Mobile App as not today +3. Turn Ignition off +4. Turn Ignition On +5. Car anniversary messages shall not be displayed in IPC + +Expected Output: + +I. Verify the following in the IPC + "It's your Car's Birthday. Congratulations!" message shall not be displayed + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and notification type from Cloud +3)IPC shall display/not display the anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Car Anniversary Date as today +2. Set the Power Mode as Running + Powermode state = 8 +3. Cloud shall send the Car Anniversary notification alert to TCU +4. TCU shall send CAN signals to IPC to display Car anniversary message +5.Verify the outputs + + +Expected Output: +I. Verify that TCU publishes Telematics_IPC_Event_Info message with signal CarAnniversary=1 on CAN after receiving command. +II. Verify that IPC_Telematics_Event_Info_Resp message with signal CarAnniverssaryResponse=1 is published by IPC +III. Verify the following in the IPC + "It's your Car's Birthday. Congratulations!" message shall be displayed on screen for 4 seconds only. +IV. Verify the following Command Response from TCU to Cloud CarAnniversaryCmdResponse + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Car Anniversary notification alert and notification type from Cloud +3)IPC shall display/not display the anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen +6) Set the Car anniversary date as today + + + + +Test Procedure: + +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Change the Car anniversary date through Mobile App as not today +3. Turn Ignition off +4. Turn Ignition On and start running +5. Car anniversary messages shall not be displayed in IPC + + +Expected Output: + +I. Verify the following in the IPC + "It's your Car's Birthday. Congratulations!" message shall not be displayed + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive both the Owners birthday and the Car Anniversary notification alert and notification type from Cloud +3) IPC shall display/not display both Birthday message and the Car anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as today +2. Set the Car Anniversary Date through the Mobile App as today +3. Set the Power Mode as Running + Powermode state = 8 +4. Cloud shall send the Owner's birthday notification alert and Car Anniversary notification alert to TCU +5. TCU shall send CAN signals to IPC to display Birthday and Car anniversary message +6.Verify the outputs + + + +Expected Output: +I. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersBirthday=1 and CarAnniversary=1 on CAN after receiving command. +II. Verify that IPC_Telematics_Event_Info_Resp message with signal OwnersBirthdayResponse=1 and CarAnniversary=1 is published by IPC +III. Verify the following in the IPC. + Both "Happy Birthday!" message and "It's your Car's Birthday. Congratulations!" shall be displayed alternatively as per a defined time 4 seconds each. +IV. Verify the following Command Responses from TCU to Cloud + BirthdayTriggerCmdResponse + CarAnniversaryTriggerCmdResponse + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive both the Owners birthday and the Owners marriage Anniversary notification alert and notification type from Cloud +3) IPC shall display/not display both Birthday message and the Marriage anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as today +2. Set the Owner's marriage anniversary date through the Mobile App as today +3. Set the Power Mode as Ignition On + Powermode state = 6 +4. Cloud shall send the Owner's birthday and marriage anniversary notification alerts to TCU +5. TCU shall send CAN signals to IPC to display Birthday and marriage anniversary message + +6.Verify the outputs + + +Expected Output: +I. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersBirthday=1 and OwnersAnniversay=1 on CAN after receiving command. +II. Verify that IPC_Telematics_Event_Info_Resp message with signal OwnersBirthdayResponse=1 and OwnersAnniversay=1 is published by IPC +III. Verify the following in the IPC. + Both "Happy Birthday!" message and "Happy Marriage Anniversary!" shall be displayed alternatively as per a defined time. +IV. Verify the following Command Responses from TCU to Cloud + BirthdayTriggerCmdResponse + AnniversaryTriggerCmdResponse + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive both the Owners marriage Anniversary and Car anniversary notification alert and notification type from Cloud +3) IPC shall display/not display both Anniversary message and Car anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Owner's marriage anniversary date through the Mobile App as today +2. Set the Car Anniversary Date as today +3. Set the Power Mode as Ignition On + Powermode state = 6 +4. Cloud shall send the Owner's marriage anniversary and Car anniversary notification alerts to TCU +5. TCU shall send CAN signals to IPC to display Car anniversary and marriage anniversary messages + +6.Verify the outputs + +Expected Output: +I. Verify that TCU publishes Telematics_IPC_Event_Info message with signal CarAnniversary=1 and OwnersAnniversay=1 on CAN after receiving command. +II. Verify that IPC_Telematics_Event_Info_Resp message with signal CarAnniversary=1 and OwnersAnniversay=1 is published by IPC +III. Verify the following in the IPC. + Both "Happy Marriage Anniversary!" and "It's your Car's Birthday. Congratulations!" shall be displayed alternatively as per a defined time. +IV. Verify the following Command Responses from TCU to Cloud + AnniversaryTriggerCmdResponse + CarAnniversaryTriggerCmdResponse + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive all three, Owners birthday, Owners marriage Anniversary and Car anniversary notification alert and notification type from Cloud +3) IPC shall display all three Birthday, Anniversary message and Car anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + +1. Set the Date of Birth through the Mobile App as today +2. Set the Owner's marriage anniversary date through the Mobile App as today +3. Set the Car Anniversary Date as today +4. Set the Power Mode as Ignition On + Powermode state = 6 +5. Cloud shall send notification alerts to TCU +6. TCU shall send CAN signals to IPC to display Birthday, Car anniversary and marriage anniversary messages +7.Verify the outputs + + +Expected Output: +I. Verify that TCU publishes Telematics_IPC_Event_Info message with signal CarAnniversary=1 and OwnersAnniversay=1 and OwnersBirthDay=1 on CAN after receiving command. +II. Verify that IPC_Telematics_Event_Info_Resp message with signal CarAnniversary=1 and OwnersAnniversay=1 and OwnersBirthDay=1 is published by IPC +III. Verify the following in the IPC. + "Happy Birthday!" , "Happy Marriage Anniversary!" and "It's your Car's Birthday. Congratulations!" messages shall be displayed alternatively as per a defined time. + +IV. Verify the following Message in the Cloud. + BirthdayTriggerCmd + AnniversaryTriggerCmd + CarAnniversaryTriggerCmd + +V. Verify the following Command Responses from TCU to Cloud + BirthdayTriggerCmdResponse + AnniversaryTriggerCmdResponse + CarAnniversaryTriggerCmdResponse + + + + + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive all three, Owners birthday, Owners marriage Anniversary and Car anniversary notification alert and notification type from Cloud +3) IPC shall display all three Birthday, Anniversary message and Car anniversary message based on TCU inputs. +4)IPC shall send the response to TCU +5) TCU shall send the Command response to Cloud + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: +1. Set the Power Mode as Engine Running + Powermode state = 8 +Set the below inputs while Engine running state +2. Set the Date of Birth through the Mobile App as today +3. Set the Owner's marriage anniversary date through the Mobile App as today +4. Set the Car Anniversary Date as today (How to set the date need to be discussed with TML) + +5. Cloud shall send notification alerts to TCU +6.Verify the outputs + + +Expected Output: +I. Verify that TCU publishes Telematics_IPC_Event_Info message with signal CarAnniversary=1 and OwnersAnniversay=1 and OwnersBirthDay=1 on CAN after receiving command. +II. Verify that IPC_Telematics_Event_Info_Resp message with signal CarAnniversary=1 and OwnersAnniversay=1 and OwnersBirthDay=1 is published by IPC +III. Verify the following in the IPC. + "Happy Birthday!" , "Happy Marriage Anniversary!" and "It's your Car's Birthday. Congratulations!" messages shall be displayed alternatively as per a defined time. + +IV. Verify the following Message in the Cloud. + BirthdayTriggerCmd + AnniversaryTriggerCmd + CarAnniversaryTriggerCmd + +V. Verify the following Command Responses from TCU to Cloud + BirthdayTriggerCmdResponse + AnniversaryTriggerCmdResponse + CarAnniversaryTriggerCmdResponse + + + + + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing how long the string is displayed in IPC.(Birthday message) + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Update Date of Birth through the Mobile App as today +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. (update with today's date) + - Click on Save option to save the data. + - App sends the updated data to Cloud + + + +Test Procedure: + +1. Vehicle is Ignition Off +2. Turn Ignition On +3. Display message "Happy Birthday!" shall be displayed on screen. +4. Check the time duration for the string to be displayed in IPC in Ignition On state +5. Repeat the steps 1 and 2 for 5 times and note the time duration for the string to continue display in each trial.(whether message shall be displayed in every Ign Off to Ign On needs to be confirmed from TML) + +Expected Output: +1. Check for the animation IPC cluster. +2. Note down the duration of "Happy Birthday" message. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing how long the string is displayed in IPC. (Marriage anniversary message) + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Update Owner's marriage anniversary date through the Mobile App as today +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Marriage Anniversary date (update with today's date) + - Click on Save option to save the data. + - App sends the updated data to Cloud + + + +Test Procedure: + +1. Vehicle is Ignition Off +2. Turn Ignition On +3. Display message "Happy Marriage Anniversary!" shall be displayed on screen. +4. Check the time duration for the string to be displayed in IPC in Ignition On state +5. Repeat the steps 1 and 2 for 5 times and note the time duration for the string to continue display in each trial.(whether message shall be displayed in every Ign Off to Ign On needs to be confirmed from TML) + +Expected Output: +1. Check for the animation IPC cluster. +2. Note down the duration of "Happy Marriage Anniversary" message. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing how long the string is displayed in IPC. (Car anniversary message) + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Update Car anniversary date as today's date(How to set the date need to be discussed with TML) + + + +Test Procedure: + +1. Vehicle is Ignition Off +2. Turn Ignition On +3. Display message ""It's your Car's Birthday. Congratulations!" shall be displayed on screen. +4. Check the time duration for the string to be displayed in IPC +5. Repeat the steps 1 and 2 for 5 times and note the time duration for the string to continue display in each trial.(whether message shall be displayed in every Ign Off to Ign On needs to be confirmed from TML) + +Expected Output: +1. Check for the animation IPC cluster. +2. Note down the duration of "Its Your Car Bday" message. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing how long the string is displayed in IPC.(Birthday message and Marriage anniversary message) + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Update Date of Birth and Marriage anniversary through the Mobile App as today +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. (update with today's date) + Marriage Anniversary date (update with today's date) + - Click on Save option to save the data. + - App sends the updated data to Cloud + + + +Test Procedure: + +1. Vehicle is Ignition Off +2. Turn Ignition On +3. Check whether both "Happy Birthday!" message and "Happy Marriage Anniversary!" shall be displayed alternatively as per a defined time. +4.Check the Priority of the message displayed +5. Check the time duration for each string to be displayed in IPC +6. Repeat the steps 1 and 2 for 5 times and note the time duration for each string to display + +Expected Output: +1. Check for the animation IPC cluster. +2. Note down the duration of "Its Your Car Bday" message. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the priority of the message displayed in IPC.(Birthday message and Marriage anniversary message and Car anniversary message) + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Update Date of Birth and Marriage anniversary through the Mobile App as today +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. (update with today's date) + Marriage Anniversary date (update with today's date) + - Click on Save option to save the data. + - App sends the updated data to Cloud +5) Update Car anniversary date as today's date(How to set the date need to be discussed with TML) + + + + +Test Procedure: + +1. Vehicle is Ignition Off +2. Turn Ignition On +3. Check whether "Happy Birthday!" message, "Happy Marriage Anniversary!" and "It's your Car's Birthday. Congratulations!" shall be displayed alternatively as per a defined time. +4.Check the Priority of the messages displayed + + +Expected Output: +1. Check for the animation IPC cluster. +2. Note the order of the three Messages displayed + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing whether the message is displayed for the extreme time limits as well. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Update Date of Birth through the Mobile App as today +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. (update date as today) + - Click on Save option to save the data. + - App sends the updated data to Cloud +5) Vehicle is Ignition Off + + +Test Procedure: + +1. Turn Vehicle to Ignition On at 12AM. +2. Check whether Display message "Happy Birthday!" is displayed on screen. +3. Turn Ignition Off +4. Turn Vehicle to Ignition On at 11.59 PM +5. Check whether Display message "Happy Birthday!" is displayed on screen. + + + +Expected Output: +1. Verify that at 12AM "Happy Birthday" message is displayed on IPC cluster. +2. Verify that at 11.59PM "Happy Birthday" message is displayed on IPC cluster. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing whether the message will be displayed/not on the next day of the event day(here Birthday) + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Update Date of Birth through the Mobile App as today +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. (Update as today) + - Click on Save option to save the data. + - App sends the updated data to Cloud +5) Vehicle is Ignition Off +6) Vehicle is not turned Ignition On this date. +7) Keep changing the TCU system time to perform this test case + + +Test Procedure: + +1. Turn Vehicle to Ignition On only on the next succeeding day +2. Check whether any message is displayed. + + +Expected Output: +1. Check whether any message is displayed on next succeeding day + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing how many times the message is displayed in the IPC. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Update Date of Birth through the Mobile App as today +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. (update as today) + - Click on Save option to save the data. + - App sends the updated data to Cloud +5) Vehicle is Ignition Off + + +Test Procedure: + +1. Vehicle is Ignition On +2. Display message "Happy Birthday!" shall be displayed on screen. +3. Turn Ignition Off +4. Turn Ignition On + (Repeat the Steps 3 , 4 of 5 times and check whether the string is displayed or not in every Ignition On state) + + +Expected Output: +1. Check whether any message is displayed or not +2. Note the down the readings + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake + + +Test Procedure: +1. Vehicle is OFF +2. Set the Birthday date through the Mobile App as today +3. Check for any notification in the Mobile App when the App could not send the command to Cloud platform. + + +Expected Output: +1. Check whether any message is displayed or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake + + +Test Procedure: +1. Vehicle is Ignition On +2. Set the Birthday date through the Mobile App as today +3. Check for any notification in the Mobile App when the App could not send the command to Cloud platform. + + +Expected Output: +1. Check whether any message is displayed or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake + + +Test Procedure: +1. Vehicle is Running +2. Set the Birthday date through the Mobile App as today +3. Check for any notification in the Mobile App when the App could not send the command to Cloud platform. + + +Expected Output: +1. Check whether any message is displayed or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake + + +Test Procedure: +1. Vehicle is Ignition On +2. Set the Marriage anniversary date through the Mobile App as today +3. Check for any notification in the Mobile App when the App could not send the command to Cloud platform. + + +Expected Output: +1. Check whether any message is displayed or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network between Mobile and Cloud comes after updating the data in Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake + + +Test Procedure: +1. Vehicle is OFF +2. Set the Birthday date through the Mobile App as today +3. Turn Ignition Off and start driving +4. Mobile App to Cloud Network become strengthen after some time +5. Check whether the Birthday message is displayed in IPC or not. + + +Expected Output: +1. Check whether the Birthday message is displayed in IPC or not. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network between Cloud and TCU comes after updating the data in Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud and TCU +3) TCU is Awake + + +Test Procedure: +1. Vehicle is OFF +2. Set the Marriage anniversary date through the Mobile App as today +3. Turn Ignition Off and start driving +4. Mobile App to Cloud Network become strengthen after some time. +5. Check whether the Marriage anniversary message is displayed in IPC or not. + + +Expected Output: +1. Check whether the Marriage anniversary message is displayed in IPC or not. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior when Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake + +Test Procedure: +1. Vehicle is OFF +2. Set the Birthday date through the Mobile App as today +3. Turn Ignition On +4. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +5. Check Cloud shall discard the request after several attempt. +6. Check any Notifications is displaying in the Mobile App, if the attempt fails + +Expected Output: +1. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior when Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake + +Test Procedure: +1. Vehicle is OFF +2. Set the Marriage anniversary date through the Mobile App as today +3. Turn Ignition On +4. Check Cloud shall discard the request after several attempt. +5. Check any Notifications is displaying in the Mobile App, if the attempt fails + +Expected Output: +1. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the how the request is processed in case of IPC failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) IPC module failure + +Test Procedure: +1. Vehicle is OFF +2. Set the Marriage anniversary date through the Mobile App as today +3. Turn Ignition On +4. Check TCU shall discard the request after several attempt. +5. Check for any Notifications is displaying in the Mobile App, if the attempt fails + +Expected Output: +1. Check for any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the how the request is processed in case of TCU failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU failure + + +Test Procedure: +1. Vehicle is OFF +2. Set the Marriage anniversary date through the Mobile App as today +3. Turn Ignition On + Check Cloud shall discard the request after several attempt. +4. Check any Notifications is displaying in the Mobile App, if the attempt fails + +Expected Output: +1. Check for any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud + + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + + + + +Test Procedure: +1. Set the Power Mode as Ignition OFF + Powermode state = 0 +2. Cloud shall send the Owner's birthday command to TCU + + +Expected Output: +I. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersBirthDay=1 on CAN after receiving command. +II. IPC will not give response to command as IGN is OFF. +III. Verify that animation should not display on IPC screen + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud + + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + + + + +Test Procedure: +1. Set the Power Mode as Ignition OFF + Powermode state = 0 +2. Wakeup the TCU by sending SMS to it from mobile phone +3. Cloud shall send the Owner's birthday command to TCU + + +Expected Output: +I. Verify that TCU is getting wakeup on receiving SMS +II. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersBirthDay=1 on CAN after receiving command. +II. IPC will not give response to command as IGN is OFF. +III. Verify that animation should not display on IPC screen + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud + + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + + + + +Test Procedure: +1. Set the Power Mode as Ignition OFF + Powermode state = 0 +2. Cloud shall send the Owner's birthday command to TCU +3. Do IGN ON + + +Expected Output: +I. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersBirthDay=1 on CAN after receiving command. +II. IPC will not give response to command as IGN is OFF. +III. After IGN ON verify that IPC is publishing OwnersBirthDayResponse=1 +IV. Verify that animation should displayed on IPC screen after IGN ON + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU shall receive the Owners Birthday notification alert and notification type from Cloud + + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + + + + +Test Procedure: +1. Set the Power Mode as Ignition OFF + Powermode state = 0 +2. Wakeup the TCU by sending SMS to it from mobile phone +3. Cloud shall send the Owner's birthday command to TCU +4. Do IGN ON + + +Expected Output: +I. Verify that TCU wakes up after receiving SMS +II.Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersBirthDay=1 on CAN after receiving command. +III. IPC will not give response to command as IGN is OFF. +IV. After IGN ON verify that IPC is publishing OwnersBirthDayResponse=1 +V. 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+======================================== + +======================================== + +======================================== + +Test Description: +To check that TCM shall send 'CvpVoiceCmdFeaturePresence' to HU during Ignition ON over CAN. + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure that communication between HU & TCU should not be on USB. + +Test Procedure: +1. Simulate the cold bootup condition(Waking up from switchoff state or sleep). +2. Set the Power Mode as Active (Ignition ON) PowerModeState = 6. + + +Expected Output: +Verify that TCM shall send below CAN signal as, +'CvpVoiceCmdFeaturePresence' = 1 (Feature present)" to HU + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall receive 'RemoteVoiceDataUpdateCommand' from server on voice command data change or TCM ECU replacement. + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure that communication between HU & TCU should not be on USB. + +Test Procedure: +1. Turn IGN OFF +2.TCM is in sleep state. +3. Send remotevoicedataupdatecommand from Layer3 portal + +Expected Output: +I.Cloud shall Wake up TCM through SMS + +II. Verify cloud platform shall send below command to TCM: +RemoteVoiceDataUpdateCommand + +III. Verify TCM shall send RemoteVoiceDataUpdateCommandResponse to server as 'success' + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall receive 'RemoteVoiceDataUpdateCommand' from server on voice command data change or TCM ECU replacement. + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure that communication between HU & TCU should not be on USB. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. TCM is Awake +3. Send remotevoicedataupdatecommand from Layer3 portal + +Expected Output: +I. Verify cloud platform shall send below command to TCM: +RemoteVoiceDataUpdateCommand + +II. Verify TCM shall send RemoteVoiceDataUpdateCommandResponse to server as 'success' + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall receive 'RemoteVoiceDataUpdateCommand' from server on voice command data change or TCM ECU replacement. + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Crank PowerModeState = 9 +2.TCM is Awake +3. Send remotevoicedataupdatecommand from Layer3 portal + +Expected Output: +I. Verify cloud platform shall send below command to TCM: +RemoteVoiceDataUpdateCommand + +II. Verify TCM shall send RemoteVoiceDataUpdateCommandResponse to server as 'success' + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall receive 'RemoteVoiceDataUpdateCommand' from server on voice command data change or TCM ECU replacement. + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Send remotevoicedataupdatecommand from Layer3 portal + +Expected Output: +I. Verify cloud platform shall send below command to TCM: +RemoteVoiceDataUpdateCommand + +II. Verify TCM shall send RemoteVoiceDataUpdateCommandResponse to server as 'success' + +======================================== + +======================================== + +Test Description: +To check that if TCM receives any value other than 0x01 (01 01 FF FF FF FF FF FF) over Message Id 0x462 from HU, then TCM shall not initiate the 'TcmHuVoiceCommandData'. + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6. +2. Simulate the cold bootup & wait for 'HuWaitTime1'. +3. send message other than 0x01 over Message Id 0x462 from HU to TCM. + + +Expected Output: +Verify that TCM not sending the 'TcmHuVoiceCommandData'. + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM during CAN tp transmission state for reception of RemoteVoiceDataUpdateCommand from cloud platform. + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6. +2.Ensure voice command data has been changed in CRM server. +2.Simulate the cold bootup & wait for 'HuWaitTime1'. +3. Ensure TCM received 0x01 over Message ID 0x462' +4. Wait for 'HuWaitTime2'. +5. Now again change the voice command data in CRM server when TCM start sending 'TcmHuVoiceCommandData' to HU. + +Expected Output: +Verify that TCM shall stop the CAN Tp transmission on receipt of 'RemoteVoiceDataUpdateCommand' from cloud platform. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Last Vehicle Service - Date & KMs voice commands over CAN + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to last vehicle service via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Last Vehicle Service. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - Purchase Date voice commands over CAN + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Vehicle History - Purchase Date via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - Purchase Date. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - VIN Number voice commands over CAN + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Vehicle History - VIN Number via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - VIN Number. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - Registration Number voice commands over CAN + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Vehicle History - Registration Number via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - Registration Number. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Insurance Expiry - Date & KMs voice commands over CAN + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Insurance Expiry - Date & KMs via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Insurance Expiry - Date & KMs. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Last Vehicle Service - Date & KMs voice commands over CAN + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to last vehicle service via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Last Vehicle Service. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - Purchase Date voice commands over CAN + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Vehicle History - Purchase Date via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - Purchase Date. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - VIN Number voice commands over CAN + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Vehicle History - VIN Number via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - VIN Number. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - Registration Number voice commands over CAN + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Vehicle History - Registration Number via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - Registration Number. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Insurance Expiry - Date & KMs voice commands over CAN + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Insurance Expiry - Date & KMs via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Insurance Expiry - Date & KMs. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my VIN voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4. Ask HU to What is my VIN via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my VIN. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my VIN voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to What is my VIN via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my VIN. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my VIN voice commands over USB, when no data is available at TCM. + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure no data available at TCM + +Test Procedure: +1. Set the Power Mode as IGN ON PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to What is my VIN via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my VIN. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my VIN voice commands over USB, when no data is available at TCM. + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure no data available at TCM + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to What is my VIN via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall not respond + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my registration no voice commands over USB + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to What is my registration no via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my registration no. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my registration no voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to What is my registration no via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my registration no. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my dealer's name voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to What is my dealer's name via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my dealer's name. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my dealer's name voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to What is my dealer's name via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my dealer's name. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support When did I purchase this vehicle voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to When did I purchase this vehicle via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of When did I purchase this vehicle. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support When did I purchase this vehicle voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to When did I purchase this vehicle via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of When did I purchase this vehicle. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Last servicing info (Date/KMs) voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Last servicing info (Date/KMs) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Last servicing info (Date/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Last servicing info (Date/KMs) voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Last servicing info (Date/KMs) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Last servicing info (Date/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Type of service (Accident/Regular) voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Type of service (Accident/Regular) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Type of service (Accident/Regular). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Type of service (Accident/Regular) voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Type of service (Accident/Regular) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Type of service (Accident/Regular). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Type of billing (Paid/Free) voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Type of billing (Paid/Free) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Type of billing (Paid/Free). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Type of billing (Paid/Free) voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Type of billing (Paid/Free) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Type of billing (Paid/Free). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Major observation by technician(Refer Service report) voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Major observation by technician(Refer Service report) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Major observation by technician(Refer Service report). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Major observation by technician(Refer Service report) voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Major observation by technician(Refer Service report) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Major observation by technician(Refer Service report). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Next service due (Days/KMs) voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Next service due (Days/KMs) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Next service due (Days/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Next service due (Days/KMs) voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Next service due (Days/KMs) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Next service due (Days/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Next service due (Days/KMs) voice commands over USB when no data is available at TCM. + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure no data available at TCM + +Test Procedure: +1. Set the Power Mode as IGN On PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Next service due (Days/KMs) via voice. + + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Next service due (Days/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Next service due (Days/KMs) voice commands over USB when no data is available at TCM. + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure no data available at TCM + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Next service due (Days/KMs) via voice + + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Next service due (Days/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Insurance Expiry - Date & KMs voice commands over USB + +Pre-condition: +1.TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Insurance Expiry - Date & KMs via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Insurance Expiry - Date & KMs. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Insurance Expiry - Date & KMs voice commands over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Insurance Expiry - Date & KMs via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Insurance Expiry - Date & KMs. + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU over CAN + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over CAN(over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU over CAN + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Crank PowerModeState = 9 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over CAN(over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU over CAN + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 8 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over CAN(over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over USB (over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Crank PowerModeState = 9 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over USB (over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 8 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over USB (over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To check that TCM shall send 'CvpVoiceCmdFeaturePresence' to HU during Ignition ON over CAN. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure that communication between HU & TCU should not be on USB. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6. +2. Simulate the cold bootup condition + +Expected Output: +Verify that TCM shall send below CAN signal as, +'CvpVoiceCmdFeaturePresence' = 1 (Feature present)" + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall receive 'RemoteVoiceDataUpdateCommand' from server on voice command data change or TCM ECU replacement. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Turn IGN OFF & TCM is in sleep state. +2.TCM is Awake +3. Send remotevoicedataupdatecommand from Layer3 portal + +Expected Output: +I.Wake up TCM through SMS + +II. Verify cloud platform shall send below command to TCM: +RemoteVoiceDataUpdateCommand + +III. Verify TCM shall send RemoteVoiceDataUpdateCommandResponse to server as 'success' + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall receive 'RemoteVoiceDataUpdateCommand' from server on voice command data change or TCM ECU replacement. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Send remotevoicedataupdatecommand from Layer3 portal + +Expected Output: +I. Verify cloud platform shall send below command to TCM: +RemoteVoiceDataUpdateCommand + +II. Verify TCM shall send RemoteVoiceDataUpdateCommandResponse to server as 'success' + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall receive 'RemoteVoiceDataUpdateCommand' from server on voice command data change or TCM ECU replacement. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Crank PowerModeState = 9 +2.TCM is Awake +3. Send remotevoicedataupdatecommand from Layer3 portal + +Expected Output: +I. Verify cloud platform shall send below command to TCM: +RemoteVoiceDataUpdateCommand + +II. Verify TCM shall send RemoteVoiceDataUpdateCommandResponse to server as 'success' + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall receive 'RemoteVoiceDataUpdateCommand' from server on voice command data change or TCM ECU replacement. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Send remotevoicedataupdatecommand from Layer3 portal + +Expected Output: +I. Verify cloud platform shall send below command to TCM: +RemoteVoiceDataUpdateCommand + +II. Verify TCM shall send RemoteVoiceDataUpdateCommandResponse to server as 'success' + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU Over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over CAN(over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU Over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Crank PowerModeState = 9 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over CAN(over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU Over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 8 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over CAN(over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over USB (over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Crank PowerModeState = 9 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over USB (over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 8 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over USB (over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To check that if TCM receives any value other than 0x01 (01 01 FF FF FF FF FF FF) over Message Id 0x462 from HU, then TCM shall not initiate the 'TcmHuVoiceCommandData'. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6. +2. Simulate the cold bootup & wait for 'HuWaitTime1'. +3. send message other than 0x01 over Message Id 0x462 from HU to TCM. + + +Expected Output: +Verify that TCM not sending the 'TcmHuVoiceCommandData'. + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM during CAN tp transmission state for reception of RemoteVoiceDataUpdateCommand from cloud platform. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6. +2.Ensure voice command data has been changed in CRM server. +2.Simulate the cold bootup & wait for 'HuWaitTime1'. +3. Ensure TCM received 0x01 over Message ID 0x462' +4. Wait for 'HuWaitTime2'. +5. Now again change the voice command data in CRM server when TCM start sending 'TcmHuVoiceCommandData' to HU. + +Expected Output: +Verify that TCM shall stop the CAN Tp transmission on receipt of 'RemoteVoiceDataUpdateCommand' from cloud platform. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Last Vehicle Service - Date & KMs voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to last vehicle service via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Last Vehicle Service. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - Purchase Date voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Vehicle History - Purchase Date via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - Purchase Date. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - VIN Number voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Vehicle History - VIN Number via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - VIN Number. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - Registration Number voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Vehicle History - Registration Number via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - Registration Number. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Insurance Expiry - Date & KMs voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Insurance Expiry - Date & KMs via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Insurance Expiry - Date & KMs. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Last Vehicle Service - Date & KMs voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to last vehicle service via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Last Vehicle Service. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - Purchase Date voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Vehicle History - Purchase Date via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - Purchase Date. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - VIN Number voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Vehicle History - VIN Number via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - VIN Number. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - Registration Number voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Vehicle History - Registration Number via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - Registration Number. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Insurance Expiry - Date & KMs voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Insurance Expiry - Date & KMs via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Insurance Expiry - Date & KMs. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my VIN voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to What is my VIN via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my VIN. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my VIN voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to What is my VIN via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my VIN. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my VIN voice commands over USB, when no data is available at TCM. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure no data available at TCM + +Test Procedure: +1. Set the Power Mode as IGN ON PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to What is my VIN via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my VIN. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my VIN voice commands over USB, when no data is available at TCM. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure no data available at TCM + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to What is my VIN via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my VIN. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my registration no voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to What is my registration no via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my registration no. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my registration no voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to What is my registration no via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my registration no. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my dealer's name voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to What is my dealer's name via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my dealer's name. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my dealer's name voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to What is my dealer's name via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my dealer's name. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support When did I purchase this vehicle voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to When did I purchase this vehicle via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of When did I purchase this vehicle. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support When did I purchase this vehicle voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to When did I purchase this vehicle via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of When did I purchase this vehicle. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Last servicing info (Date/KMs) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Last servicing info (Date/KMs) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Last servicing info (Date/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Last servicing info (Date/KMs) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Last servicing info (Date/KMs) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Last servicing info (Date/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Type of service (Accident/Regular) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Type of service (Accident/Regular) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Type of service (Accident/Regular). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Type of service (Accident/Regular) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Type of service (Accident/Regular) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Type of service (Accident/Regular). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Type of billing (Paid/Free) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Type of billing (Paid/Free) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Type of billing (Paid/Free). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Type of billing (Paid/Free) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Type of billing (Paid/Free) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Type of billing (Paid/Free). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Major observation by technician(Refer Service report) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Major observation by technician(Refer Service report) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Major observation by technician(Refer Service report). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Major observation by technician(Refer Service report) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Major observation by technician(Refer Service report) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Major observation by technician(Refer Service report). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Next service due (Days/KMs) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Next service due (Days/KMs) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Next service due (Days/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Next service due (Days/KMs) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Next service due (Days/KMs) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Next service due (Days/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Next service due (Days/KMs) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN On PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Next service due (Days/KMs) via voice. +4. Ensure no data available at TCM + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Next service due (Days/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Next service due (Days/KMs) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Next service due (Days/KMs) via voice +4. Ensure no data available at TCM + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Next service due (Days/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Insurance Expiry - Date & KMs voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Insurance Expiry - Date & KMs via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Insurance Expiry - Date & KMs. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Insurance Expiry - Date & KMs voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2. Ensure HU should ON and press push to talk button. +3.Ask HU to Insurance Expiry - Date & KMs via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Insurance Expiry - Date & KMs. + +======================================== + +======================================== + +Test Description: +To check that TCM shall send 'CvpVoiceCmdFeaturePresence' to HU during Ignition ON over CAN. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure that communication between HU & TCU should not be on USB. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6. +2. Simulate the cold bootup condition + +Expected Output: +Verify that TCM shall send below CAN signal as, +'CvpVoiceCmdFeaturePresence' = 1 (Feature present)" + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall receive 'RemoteVoiceDataUpdateCommand' from server on voice command data change or TCM ECU replacement. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Turn IGN OFF & TCM is in sleep state. +2. Send remotevoicedataupdatecommand from Layer3 portal + +Expected Output: +I.Wake up TCM through SMS + +II. Verify cloud platform shall send below command to TCM: +RemoteVoiceDataUpdateCommand + +III. Verify TCM shall send RemoteVoiceDataUpdateCommandResponse to server as 'success' + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall receive 'RemoteVoiceDataUpdateCommand' from server on voice command data change or TCM ECU replacement. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Send remotevoicedataupdatecommand from Layer3 portal + +Expected Output: +I. Verify cloud platform shall send below command to TCM: +RemoteVoiceDataUpdateCommand + +II. Verify TCM shall send RemoteVoiceDataUpdateCommandResponse to server as 'success' + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall receive 'RemoteVoiceDataUpdateCommand' from server on voice command data change or TCM ECU replacement. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Crank PowerModeState = 9 +2.TCM is Awake +3. Send remotevoicedataupdatecommand from Layer3 portal + +Expected Output: +I. Verify cloud platform shall send below command to TCM: +RemoteVoiceDataUpdateCommand + +II. Verify TCM shall send RemoteVoiceDataUpdateCommandResponse to server as 'success' + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall receive 'RemoteVoiceDataUpdateCommand' from server on voice command data change or TCM ECU replacement. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Send remotevoicedataupdatecommand from Layer3 portal + +Expected Output: +I. Verify cloud platform shall send below command to TCM: +RemoteVoiceDataUpdateCommand + +II. Verify TCM shall send RemoteVoiceDataUpdateCommandResponse to server as 'success' + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over CAN(over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU Over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Crank PowerModeState = 9 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over CAN(over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU Over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 8 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over CAN(over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over USB (over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Crank PowerModeState = 9 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over USB (over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To monitor that TCM shall send 'TcmHuVoiceCommandData' to HU on receiving 'HuTcmVoiceCommandAck' from HU over USB + +Pre-condition: +1. TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 8 +2. Ensure TCM received 'RemoteVoiceDataUpdateCommand' from server. +3. Simulate the cold bootup condition & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. + +Expected Output: + + +I. Verify TCM shall send 'TcmHuVoiceCommandData' to HU over USB (over message ID 0X463) + +======================================== + +======================================== + +Test Description: +To check that if TCM receives any value other than 0x01 (01 01 FF FF FF FF FF FF) over Message Id 0x462 from HU, then TCM shall not initiate the 'TcmHuVoiceCommandData'. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6. +2. Simulate the cold bootup & wait for 'HuWaitTime1'. +3. send message other than 0x01 over Message Id 0x462 from HU to TCM. + + +Expected Output: +Verify that TCM not sending the 'TcmHuVoiceCommandData'. + +======================================== + +======================================== + +Test Description: +To check the behaviour of TCM during CAN tp transmission state for reception of RemoteVoiceDataUpdateCommand from cloud platform. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6. +2.Ensure voice command data has been changed in CRM server. +3.Simulate the cold bootup & wait for 'HuWaitTime1'. +4. Ensure TCM received 0x01 over Message ID 0x462' +5. Wait for 'HuWaitTime2'. +6. Now again change the voice command data in CRM server when TCM start sending 'TcmHuVoiceCommandData' to HU. + +Expected Output: +Verify that TCM shall stop the CAN Tp transmission on receipt of 'RemoteVoiceDataUpdateCommand' from cloud platform. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Last Vehicle Service - Date & KMs voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to last vehicle service via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Last Vehicle Service. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - Purchase Date voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Vehicle History - Purchase Date via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - Purchase Date. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - VIN Number voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Vehicle History - VIN Number via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - VIN Number. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - Registration Number voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Vehicle History - Registration Number via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - Registration Number. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Insurance Expiry - Date & KMs voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Insurance Expiry - Date & KMs via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Insurance Expiry - Date & KMs. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Last Vehicle Service - Date & KMs voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to last vehicle service via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Last Vehicle Service. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - Purchase Date voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Vehicle History - Purchase Date via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - Purchase Date. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - VIN Number voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Vehicle History - VIN Number via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - VIN Number. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Vehicle History - Registration Number voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Vehicle History - Registration Number via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Vehicle History - Registration Number. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Insurance Expiry - Date & KMs voice commands over CAN + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Insurance Expiry - Date & KMs via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Insurance Expiry - Date & KMs. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my VIN voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4. Ask HU to What is my VIN via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my VIN. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my VIN voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to What is my VIN via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my VIN. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my VIN voice commands over USB, when no data is available at TCM. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure no data available at TCM + +Test Procedure: +1. Set the Power Mode as IGN ON PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to What is my VIN via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my VIN. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my VIN voice commands over USB, when no data is available at TCM. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure no data available at TCM + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to What is my VIN via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall not respond + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my registration no voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to What is my registration no via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my registration no. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my registration no voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to What is my registration no via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my registration no. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my dealer's name voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as IGN ON PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to What is my dealer's name via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my dealer's name. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support What is my dealer's name voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to What is my dealer's name via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of What is my dealer's name. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support When did I purchase this vehicle voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to When did I purchase this vehicle via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of When did I purchase this vehicle. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support When did I purchase this vehicle voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to When did I purchase this vehicle via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of When did I purchase this vehicle. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Last servicing info (Date/KMs) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Last servicing info (Date/KMs) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Last servicing info (Date/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Last servicing info (Date/KMs) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Last servicing info (Date/KMs) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Last servicing info (Date/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Type of service (Accident/Regular) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Type of service (Accident/Regular) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Type of service (Accident/Regular). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Type of service (Accident/Regular) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Type of service (Accident/Regular) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Type of service (Accident/Regular). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Type of billing (Paid/Free) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Type of billing (Paid/Free) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Type of billing (Paid/Free). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Type of billing (Paid/Free) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Type of billing (Paid/Free) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Type of billing (Paid/Free). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Major observation by technician(Refer Service report) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Major observation by technician(Refer Service report) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Major observation by technician(Refer Service report). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Major observation by technician(Refer Service report) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Major observation by technician(Refer Service report) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Major observation by technician(Refer Service report). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Next service due (Days/KMs) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Next service due (Days/KMs) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Next service due (Days/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Next service due (Days/KMs) voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Next service due (Days/KMs) via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Next service due (Days/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Next service due (Days/KMs) voice commands over USB when no data is available at TCM. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure no data available at TCM + +Test Procedure: +1. Set the Power Mode as IGN On PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Next service due (Days/KMs) via voice. + + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Next service due (Days/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Next service due (Days/KMs) voice commands over USB when no data is available at TCM. + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. +4. Ensure no data available at TCM + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Next service due (Days/KMs) via voice + + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Next service due (Days/KMs). + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Insurance Expiry - Date & KMs voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) PowerModeState = 6 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Insurance Expiry - Date & KMs via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Insurance Expiry - Date & KMs. + +======================================== + +======================================== + +Test Description: +TCM & HU shall support Insurance Expiry - Date & KMs voice commands over USB + +Pre-condition: +1. The car is equipped with TCM with a functioning SIM. +2. The SOC of TCM should be sufficient to let it perform whenever required. +3. TCM SIM card have sufficient network strength. + +Test Procedure: +1. Set the Power Mode as Run PowerModeState = 8 +2.TCM is Awake +3. Ensure HU should ON and press push to talk button. +4.Ask HU to Insurance Expiry - Date & KMs via voice. + +Expected Output: +1. verify TCM & HU shall maintain the overall execution time of voice command within '30 seconds'. +2. Infotainment shall respond via voice as per data from local memory of Insurance Expiry - Date & KMs. + +======================================== + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Perform a Immobilize my car Request from App + + +Expected Output: + + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.Perform a Immobilize my car Request from App + +Expected Output: + +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Perform a Immobilize my car Request from App + +Expected Output: + + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2.Perform a Immobilize my car Request from App + +Expected Output: + +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Perform a Immobilize my car Request from App + +Expected Output: + + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2.Perform a Immobilize my car Request from App + +Expected Output: + +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.Perform a Immobilize my car Request from App + +Expected Output: + +I.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock =1 + +II.Wakeup BCM by activating outbound hardwire wakeup line + +III. Publish TCU_NMPDU message over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +V. TCU export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is mobilized + +Test Procedure: +1.IGN is ON and Car is in running powermode +2. Perform a Immobilize my car Request from Cloud portal +3. Do an IGN cycle. +4. Allow the TCM to go to sleep. + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud. +VI. Verify that user is unable to crank the vehicle after doing IGN cycle. +VII. Verify the vehicle is not getting auto- mobilized for next 10 ign cycles. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is mobilized + +Test Procedure: +1.IGN is ON and Car is in running powermode +2. Perform a Immobilize my car Request from Cloud portal +3. Do an IGN cycle. +4. Allow the TCM to go to sleep. + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud. +VI. Verify that user is unable to crank the vehicle after doing IGN cycle. +VII. Verify the vehicle is not getting auto- mobilized for next 10 ign cycles. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote vehicle Mobilize request from Cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set Vehicle Battery Voltage above 16V +3. Perform a remote Vehicle Mobilize Request from App + +Expected Output: +I. BCM/PEPS/Immo shall not execute the remote Mobilize Request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote vehicle Mobilize request from Cloud + +Pre-condition: +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set Vehicle Battery Voltage above 16V +3. Perform a remote Vehicle Mobilize Request from App + +Expected Output: +I. BCM/PEPS/Immo shall not execute the remote Mobilize Request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2.Perform a Immobilize my car Request from App + +Expected Output: + +I.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock =1 + +II.Wakeup BCM by activating outbound hardwire wakeup line + +III. Publish TCU_NMPDU message over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +V. TCU export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Immobilization status is updated in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) VCU publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN signals rom VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Vehicle Immobilized state Signals from VCU + ImmoStatusVcu = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. TCU shall publish the following CAN messages to VCU and BCM + TCuWakeLock=='0' + + +V. Verify Vehicle Immobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 2 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote vehicle Immobilize request from Cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set Vehicle Battery Voltage above 16V +3. Perform a remote Vehicle Immobilize Request from App + +Expected Output: +I. BCM/PEPS/Immo shall not execute the remote Immobilize Request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote vehicle Immobilize request from Cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set Vehicle Battery Voltage above 16V +3. Perform a remote Vehicle Immobilize Request from App + +Expected Output: +I. BCM/PEPS/Immo shall not execute the remote Immobilize Request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2.Perform a Immobilize my car Request from App + +Expected Output: + +I.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock =1 + +II.Wakeup BCM by activating outbound hardwire wakeup line + +III. Publish TCU_NMPDU message over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +V. TCU export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Immobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) VCU publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN signals rom VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilized state Signals from VCU + ImmoStatusVcu = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. TCU shall publish the following CAN messages to VCU and BCM + TCuWakeLock=='0' + +V. Verify Vehicle Immobilization status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN signals rom PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 2 + + + +Expected Output: +I. TCU shall send Vehic immmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Run VCU diagnostic routine for Immobilizing the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2.Perform a Immobilize my car Request from App +3. Run BCM/PEPS/Immo Mobilize diagnostic routine to Mobilize the vehicle + + + + +Expected Output: +Verify the below outputs:- + +I. Verify Vehicle Immobilization and Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Immo ECU publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN signals rom Immo + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilized state Signals from Immo + ImmoStatusImmo = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.Perform a Mobilize my car Request from App + +Expected Output: + + +I. Verify the following Message in the Cloud: + MobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.Perform a Mobilize my car Request from App + +Expected Output: + +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + MobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2.Perform a Mobilize my car Request from App + +Expected Output: + + +I. Verify the following Message in the Cloud: + MobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2.Perform a Mobilize my car Request from App + +Expected Output: + +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + MobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2.Perform a Mobilize my car Request from App + +Expected Output: + + +I. Verify the following Message in the Cloud: + MobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2.Perform a Mobilize my car Request from App + +Expected Output: + +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + MobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.Perform a Mobilize my car Request from App + +Expected Output: + + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line + +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 + +V. TCU shall export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Mobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) VCU publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Mobilized state Signals from VCU + ImmoStatusVcu = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) BCM publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Mobilized state Signals from BCM + ImmoStatusBcm = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Immo publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from Immo + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Mobilized state Signals from Immo + ImmoStatusImmo = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2.Perform a Mobilize my car Request from App + +Expected Output: + + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 + +V. TCU shall export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Mobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) VCU publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Mobilized state Signals from VCU + ImmoStatusVcu = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) BCM publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Mobilized state Signals from BCM + ImmoStatusBcm = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Immo publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from Immo + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Mobilized state Signals from Immo + ImmoStatusImmo = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake + + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2.Perform a Mobilize my car Request from App + +Expected Output: + + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 + +V. TCU shall export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Mobilization status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) VCU publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Vehicle Mobilized state Signals from VCU + ImmoStatusVcu = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) BCM publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Vehicle Mobilized state Signals from BCM + ImmoStatusBcm = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Immo publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from Immo + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Vehicle Mobilized state Signals from Immo + ImmoStatusImmo = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Perform a Immobilize my car Request from App + +Expected Output: + + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2.Perform a Immobilize my car Request from App + +Expected Output: + +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Perform a Immobilize my car Request from App + +Expected Output: + + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Perform a Immobilize my car Request from App + +Expected Output: + +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Perform a Immobilize my car Request from App + +Expected Output: + + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2.Perform a Immobilize my car Request from App + +Expected Output: + +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + +III.Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Immobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) VCU publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Immobilized state Signals from VCU + ImmoStatusVcu = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) BCM publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Immobilized state Signals from BCM + ImmoStatusBcm = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Immo ECU publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from Immo ECU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Immobilized state Signals from Immo + ImmoStatusImmo = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + +III.Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Immobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) VCU publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Immobilized state Signals from VCU + ImmoStatusVcu = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) BCM publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Immobilized state Signals from BCM + ImmoStatusBcm = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Immo ECU publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from Immo ECU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Immobilized state Signals from Immo + ImmoStatusImmo = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + +III.Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Immobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) VCU publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Immobilized state Signals from VCU + ImmoStatusVcu = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) BCM publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Immobilized state Signals from BCM + ImmoStatusBcm = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Immo ECU publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from Immo ECU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Immobilized state Signals from Immo + ImmoStatusImmo = 1 + + + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2.Perform a Mobilize my car Request from App + +Expected Output: + + +I. Verify the following Message in the Cloud: + MobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2.Perform a Mobilize my car Request from App + +Expected Output: + +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + MobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Perform a Mobilize my car Request from App + +Expected Output: + + +I. Verify the following Message in the Cloud: + MobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Perform a Mobilize my car Request from App + +Expected Output: + +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + MobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2.Perform a Mobilize my car Request from App + +Expected Output: + + +I. Verify the following Message in the Cloud: + MobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2.Perform a Mobilize my car Request from App + +Expected Output: + +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + MobilizeVehicleCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Perform a Mobilize my car Request from App + + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. TCU shall set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + +III Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) VCU publish vehicle Mobilised state signals to TCU +3) TCU read vehicle mobilized state CAN from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Mobilized state Signals from VCU + ImmoStatusVcu = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) BCM publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Mobilized state Signals from BCM + ImmoStatusBcm = 1 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Immo publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from Immo + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Mobilized state Signals from Immo + ImmoStatusImmo = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Perform a Mobilize my car Request from App + + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. TCU shall set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + +III Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) VCU publish vehicle Mobilised state signals to TCU +3) TCU read vehicle mobilized state CAN from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Mobilized state Signals from VCU + ImmoStatusVcu = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) BCM publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Mobilized state Signals from BCM + ImmoStatusBcm = 1 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Immo publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from Immo + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Mobilized state Signals from Immo + ImmoStatusImmo = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2. Perform a Mobilize my car Request from App + + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. TCU shall set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + +III Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) VCU publish vehicle Mobilised state signals to TCU +3) TCU read vehicle mobilized state CAN from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Mobilized state ( Signals from VCU) + ImmoStatusVcu = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Mobilized state ( Signals from PEPS) + VehicleMobilizationState = 1 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) BCM publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Mobilized state ( Signals from BCM) + ImmoStatusBcm = 1 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Immo publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from Immo + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Mobilized state (Signals from Immo ) + ImmoStatusImmo = 0 + + + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) VCU, on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusImmo = 0 +3.Perform a Immobilize my car Request from App + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II .Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock = 1 +III.Wakeup BCM by activating outbound hardwire wakeup line +IV. Publish TCU_NMPDU message over CAN +V. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) BCM on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Not Immobilized state Signals from BCM + ImmoStatusBcm = 0 +3.Perform a Immobilize my car Request from App + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II .Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock = 1 +III.Wakeup BCM by activating outbound hardwire wakeup line +IV. Publish TCU_NMPDU message over CAN + +V. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII.Verify Vehicle Immobilization status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) PEPS on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Not Immobilized state Signals from PEPS + VehicleMobilizationState = 1 +3.Perform a Immobilize my car Request from App + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II .Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock = 1 +III.Wakeup BCM by activating outbound hardwire wakeup line +IV. Publish TCU_NMPDU message over CAN + +V. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 2 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) Immo on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusBcm = 0 +3.Perform a Immobilize my car Request from App + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II .Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock = 1 +III.Wakeup BCM by activating outbound hardwire wakeup line +IV. Publish TCU_NMPDU message over CAN + +V. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from PEPS to TCU + ImmoStatusBcm = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +XI. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) BCM on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Not Immobilized state Signals from BCM + ImmoStatusBcm = 0 +3.Perform a Immobilize my car Request from App + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II .Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock = 1 +III.Wakeup BCM by activating outbound hardwire wakeup line +IV. Publish TCU_NMPDU message over CAN + +V. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 + XII. Verify Vehicle Immobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) PEPS on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Not Immobilized state Signals from PEPS + VehicleMobilizationState = 1 +3.Perform a Immobilize my car Request from App + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II .Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock = 1 +III.Wakeup BCM by activating outbound hardwire wakeup line +IV. Publish TCU_NMPDU message over CAN + +V. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 2 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) Immo on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusBcm = 0 +3.Perform a Immobilize my car Request from App + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II .Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock = 1 +III.Wakeup BCM by activating outbound hardwire wakeup line +IV. Publish TCU_NMPDU message over CAN + +V. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from PEPS to TCU + ImmoStatusBcm = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) BCM on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Vehicle Not Immobilized state Signals from BCM + ImmoStatusBcm = 0 +3.Perform a Immobilize my car Request from App + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II .Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock = 1 +III.Wakeup BCM by activating outbound hardwire wakeup line +IV. Publish TCU_NMPDU message over CAN + +V. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) PEPS on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Vehicle Not Immobilized state Signals from PEPS + VehicleMobilizationState = 1 +3.Perform a Immobilize my car Request from App + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II .Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock = 1 +III.Wakeup BCM by activating outbound hardwire wakeup line +IV. Publish TCU_NMPDU message over CAN + +V. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 2 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) Immo on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusBcm = 0 +3.Perform a Immobilize my car Request from App + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II .Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock = 1 +III.Wakeup BCM by activating outbound hardwire wakeup line +IV. Publish TCU_NMPDU message over CAN + +V. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from PEPS to TCU + ImmoStatusBcm = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +XI. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Run VCU diagnostic routine for Immobilizing the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2.Perform a Immobilize my car Request from App +3. Run BCM/PEPS/Immo Mobilize diagnostic routine to Mobilize the vehicle + + + + + + +Expected Output: +Verify the below outputs:- + +I. Verify Vehicle Immobilization and Mobilization status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from App +3) Run VCU diagnostic routine for Immobilizing the vehicle. +4) Run VCU diagnostic routine for Mobilizing the vehicle. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Run diagnostic routine to Immobilize the vehicle +3. Turn the Ignition On + Powermode = 6 +4. Vehicle is in the Immobilized state. +5. Run BCM diagnostic routine to Mobilize the vehicle. + + + + + +Expected Output: + Verify the below outputs:- + +I. Verify Vehicle Immobilization and Mobilization status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) VCU performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is available. + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Immobilize Status Signal from VCU + ImmoStatusVcu = 1 +3.Perform a Mobilize my car Request from App +4. VCU shall mobilize the vehicle if authentic key is available. + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from VCU to TCU + ImmoStatusVcu = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) VCU performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Immobilize Status Signal from VCU + ImmoStatusVcu = 1 +3.Perform a Mobilize my car Request from App +4. VCU Shall memorize the request received from TCU +5. VCU shall activate the mobilize when authentic key is detected +6. VCU shall update the Immobilization state signal (ImmoStatusVcu = 0) and publish over CAN to TCU post mobilization activation + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from VCU to TCU + ImmoStatusVcu = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI. Verify Vehicle Mobilization status is updated in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) BCM performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is available. + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Immobilize Status Signal from BCM + ImmoStatusBcm = 1 +3.Perform a Mobilize my car Request from App +4. BCM shall mobilize the vehicle if authentic key is available. + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 1 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) BCM performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Immobilize Status Signal from BCM + ImmoStatusBcm = 1 +3.Perform a Mobilize my car Request from App +4. BCM Shall memorize the request received from TCU +5. BCM shall activate the mobilize when authentic key is detected +6. BCM shall update the Immobilization state signal (ImmoStatusBcm = 0) and publish over CAN to TCU post mobilization activation + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) PEPS performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is available. + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Immobilize Status Signal from PEPS + VehicleMobilizationState = 0 +3.Perform a Mobilize my car Request from App +4. PEPS shall mobilize the vehicle if authentic key is available. + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 1 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) PEPS performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Immobilize Status Signal from PEPS + VehicleMobilizationState = 0 +3.Perform a Mobilize my car Request from App +4. PEPS Shall memorize the request received from TCU +5. PEPS shall activate the mobilize when authentic key is detected +6. PEPS shall update the Immobilization state signal (VehicleMobilizationState = 1) and publish over CAN to TCU post mobilization activation + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 1 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) Immo ECU performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is available. + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Immobilize Status Signal from Immo + ImmoStatusImmo = 1 +3.Perform a Mobilize my car Request from App +4. Immo shall mobilize the vehicle if authentic key is available. + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) Immo performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Immobilize Status Signal from Immo + ImmoStatusImmo = 1 +3.Perform a Mobilize my car Request from App +4. Immo Shall memorize the request received from TCU +5. Immo shall activate the mobilize when authentic key is detected +6. Immo shall update the Immobilization state signal (ImmoStatusImmo = 0) and publish over CAN to TCU post mobilization activation + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 + +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) VCU performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is available. + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilize Status Signal from VCU + ImmoStatusVcu = 1 +3.Perform a Mobilize my car Request from App +4. VCU shall mobilize the vehicle if authentic key is available. + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from VCU to TCU + ImmoStatusVcu = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) VCU performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilize Status Signal from VCU + ImmoStatusVcu = 1 +3.Perform a Mobilize my car Request from App +4. VCU Shall memorize the request received from TCU +5. VCU shall activate the mobilize when authentic key is detected +6. VCU shall update the Immobilization state signal (ImmoStatusVcu = 0) and publish over CAN to TCU post mobilization activation + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from VCU to TCU + ImmoStatusVcu = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 + +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) BCM performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is available. + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilize Status Signal from BCM + ImmoStatusBcm = 1 +3.Perform a Mobilize my car Request from App +4. BCM shall mobilize the vehicle if authentic key is available. + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 1 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 + +XI. Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) BCM performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilize Status Signal from BCM + ImmoStatusBcm = 1 +3.Perform a Mobilize my car Request from App +4. BCM Shall memorize the request received from TCU +5. BCM shall activate the mobilize when authentic key is detected +6. BCM shall update the Immobilization state signal (ImmoStatusBcm = 0) and publish over CAN to TCU post mobilization activation + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) PEPS performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is available. + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilize Status Signal from PEPS + VehicleMobilizationState = 0 +3.Perform a Mobilize my car Request from App +4. PEPS shall mobilize the vehicle if authentic key is available. + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 1 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) PEPS performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilize Status Signal from PEPS + VehicleMobilizationState = 0 +3.Perform a Mobilize my car Request from App +4. PEPS Shall memorize the request received from TCU +5. PEPS shall activate the mobilize when authentic key is detected +6. PEPS shall update the Immobilization state signal (VehicleMobilizationState = 1) and publish over CAN to TCU post mobilization activation + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 1 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) Immo ECU performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is available. + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilize Status Signal from Immo + ImmoStatusImmo = 1 +3.Perform a Mobilize my car Request from App +4. Immo shall mobilize the vehicle if authentic key is available. + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) Immo performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilize Status Signal from Immo + ImmoStatusImmo = 1 +3.Perform a Mobilize my car Request from App +4. Immo Shall memorize the request received from TCU +5. Immo shall activate the mobilize when authentic key is detected +6. Immo shall update the Immobilization state signal (ImmoStatusImmo = 0) and publish over CAN to TCU post mobilization activation + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) VCU performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is available. + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Vehicle Immobilize Status Signal from VCU + ImmoStatusVcu = 1 +3.Perform a Mobilize my car Request from App +4. VCU shall mobilize the vehicle if authentic key is available. + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from VCU to TCU + ImmoStatusVcu = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) VCU performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Vehicle Immobilize Status Signal from VCU + ImmoStatusVcu = 1 +3.Perform a Mobilize my car Request from App +4. VCU Shall memorize the request received from TCU +5. VCU shall activate the mobilize when authentic key is detected +6. VCU shall update the Immobilization state signal (ImmoStatusVcu = 0) and publish over CAN to TCU post mobilization activation + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from VCU to TCU + ImmoStatusVcu = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) BCM performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is available. + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Vehicle Immobilize Status Signal from BCM + ImmoStatusBcm = 1 +3.Perform a Mobilize my car Request from App +4. BCM shall mobilize the vehicle if authentic key is available. + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 1 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) BCM performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Vehicle Immobilize Status Signal from BCM + ImmoStatusBcm = 1 +3.Perform a Mobilize my car Request from App +4. BCM Shall memorize the request received from TCU +5. BCM shall activate the mobilize when authentic key is detected +6. BCM shall update the Immobilization state signal (ImmoStatusBcm = 0) and publish over CAN to TCU post mobilization activation + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) PEPS performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is available. + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Vehicle Immobilize Status Signal from PEPS + VehicleMobilizationState = 0 +3.Perform a Mobilize my car Request from App +4. PEPS shall mobilize the vehicle if authentic key is available. + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 1 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) PEPS performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Vehicle Immobilize Status Signal from PEPS + VehicleMobilizationState = 0 +3.Perform a Mobilize my car Request from App +4. PEPS Shall memorize the request received from TCU +5. PEPS shall activate the mobilize when authentic key is detected +6. PEPS shall update the Immobilization state signal (VehicleMobilizationState = 1) and publish over CAN to TCU post mobilization activation + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 1 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) Immo ECU performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is available. + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Vehicle Immobilize Status Signal from Immo + ImmoStatusImmo = 1 +3.Perform a Mobilize my car Request from App +4. Immo shall mobilize the vehicle if authentic key is available. + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) Immo performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Vehicle Immobilize Status Signal from Immo + ImmoStatusImmo = 1 +3.Perform a Mobilize my car Request from App +4. Immo Shall memorize the request received from TCU +5. Immo shall activate the mobilize when authentic key is detected +6. Immo shall update the Immobilization state signal (ImmoStatusImmo = 0) and publish over CAN to TCU post mobilization activation + + +Expected Output: + +I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) VCU performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Not Immobilized state Signals from VCU + ImmoStatusVcu = 0 +3.Perform a Immobilize my car Request from App +4. VCU shall activate the immobilize state + + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from VCU + ImmoStatusVcu = 1 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 + +X Verify Vehicle Immobilization status is updated in the Mobile App + + + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) BCM performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Not Immobilized state Signals from BCM + ImmoStatusBcm = 0 +3.Perform a Immobilize my car Request from App +4. BCM shall activate the immobilize state + + + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from BCM + ImmoStatusBcm = 1 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 + +XI Verify Vehicle Immobilization status is updated in the Mobile App + + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) PEPS performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Not Immobilized state Signals from PEPS + VehicleMobilizationState = 1 +3.Perform a Immobilize my car Request from App +4. PEPS shall activate the immobilize state + + + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from PEPS + VehicleMobilizationState = 2 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 + +X Verify Vehicle Immobilization status is updated in the Mobile App + + + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) Immo performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusImmo = 0 +3.Perform a Immobilize my car Request from App +4. Immo shall activate the immobilize state + + + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from Immo + ImmoStatusImmo = 1 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 +X Verify Vehicle Immobilization status is updated in the Mobile App + + + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) VCU performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Not Immobilized state Signals from VCU + ImmoStatusVcu = 0 +3.Perform a Immobilize my car Request from App +4. VCU shall activate the immobilize state + + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from VCU + ImmoStatusVcu = 1 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 + +X Verify Vehicle Immobilization status is updated in the Mobile App + + + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) BCM performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Not Immobilized state Signals from BCM + ImmoStatusBcm = 0 +3.Perform a Immobilize my car Request from App +4. BCM shall activate the immobilize state + + + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from BCM + ImmoStatusBcm = 1 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 +X Verify Vehicle Immobilization status is updated in the Mobile App + + + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) PEPS performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Not Immobilized state Signals from PEPS + VehicleMobilizationState = 1 +3.Perform a Immobilize my car Request from App +4. PEPS shall activate the immobilize state + + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from PEPS + VehicleMobilizationState = 2 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 +X Verify Vehicle Immobilization status is updated in the Mobile App + + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) Immo performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusImmo = 0 +3.Perform a Immobilize my car Request from App +4. Immo shall activate the immobilize state + + + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from Immo + ImmoStatusImmo = 1 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 +X Verify Vehicle Immobilization status is updated in the Mobile App + + + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) VCU performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Not Immobilized state Signals from VCU + ImmoStatusVcu = 0 +3.Perform a Immobilize my car Request from App +4. VCU shall activate the immobilize state + + + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from VCU + ImmoStatusVcu = 1 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 +X Verify Vehicle Immobilization status is updated in the Mobile App + + + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) BCM performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Not Immobilized state Signals from BCM + ImmoStatusBcm = 0 +3.Perform a Immobilize my car Request from App +4. BCM shall activate the immobilize state + + + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from BCM + ImmoStatusBcm = 1 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 +X Verify Vehicle Immobilization status is updated in the Mobile App + + + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) PEPS performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Not Immobilized state Signals from PEPS + VehicleMobilizationState = 1 +3.Perform a Immobilize my car Request from App +4. PEPS shall activate the immobilize state + + + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from PEPS + VehicleMobilizationState = 2 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 +X Verify Vehicle Immobilization status is updated in the Mobile App + + + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) Immo performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusImmo = 0 +3.Perform a Immobilize my car Request from App +4. Immo shall activate the immobilize state + + + +Expected Output: + +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from Immo + ImmoStatusImmo = 1 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 +X Verify Vehicle Immobilization status is updated in the Mobile App + + + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from App +3)Run VCU diagnostic routine for Mobilizing the vehicle. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Vehicle Not Immobilized state Signals from BCM + ImmoStatusBcm = 0 +3.Perform a Immobilize my car Request from App +4. VCU shall activate the immobilize state +5. Run BCM diagnostic routine to Mobilize the vehicle. + + + + + + +Expected Output: +I. Verify the below outputs:- + + At step 4, verify Immobilization status is updated in the Mobile App + +At step7, Verify Mobilization status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) VCU performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is available. + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Immobilized state Signals from VCU + ImmoStatusVcu = 1 +3. Perform a Mobilize my car Request from App +4. VCU shall mobilize the vehicle if authentic key is available. + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from VCU to TCU + ImmoStatusVcu = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 + +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) VCU performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is not available. + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Immobilized state Signals from VCU + ImmoStatusVcu = 1 +3. Perform a Mobilize my car Request from App +4.VCU Shall memorize the request received from TCU +5. VCU shall activate the mobilize when authentic key is detected +6. VCU shall update the Immobilization state signal (ImmoStatusVcu=='0') and publish over CAN to TCU post mobilization activation + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from VCU to TCU + ImmoStatusVcu = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) BCM performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is available. + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Immobilized state Signals from BCM + ImmoStatusBcm = 1 +3. Perform a Mobilize my car Request from App +4. BCM shall mobilize the vehicle if authentic key is available. + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) BCM performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is not available. + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Immobilized state Signals from BCM + ImmoStatusBcm = 1 +3. Perform a Mobilize my car Request from App +4.BCM Shall memorize the request received from TCU +5. BCM shall activate the mobilize when authentic key is detected +6. BCM shall update the Immobilization state signal (ImmoStatusBcm=='0') and publish over CAN to TCU post mobilization activation + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) PEPS performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is available. + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 0 +3. Perform a Mobilize my car Request from App +4. PEPS shall mobilize the vehicle if authentic key is available. + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 1 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) PEPS performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is not available. + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 0 +3. Perform a Mobilize my car Request from App +4. PEPS Shall memorize the request received from TCU +5. PEPS shall activate the mobilize when authentic key is detected +6. PEPS shall update the Immobilization state signal (VehicleMobilizationState =1) and publish over CAN to TCU post mobilization activation + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 1 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) Immo performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is available. + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Immobilized state Signals from Immo + ImmoStatusImmo = 1 +3. Perform a Mobilize my car Request from App +4. Immo shall mobilize the vehicle if authentic key is available. + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) Immo performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is not available. + +Test Procedure: + +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Immobilized state Signals from Immo + ImmoStatusImmo = 1 +3. Perform a Mobilize my car Request from App +4. Immo Shall memorize the request received from TCU +5. Immo shall activate the mobilize when authentic key is detected +6. Immo shall update the Immobilization state signal (ImmoStatusImmo = 0) and publish over CAN to TCU post mobilization activation + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) VCU performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is available. + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Immobilized state Signals from VCU + ImmoStatusVcu = 1 +3. Perform a Mobilize my car Request from App +4. VCU shall mobilize the vehicle if authentic key is available. + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from VCU to TCU + ImmoStatusVcu = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) VCU performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is not available. + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Immobilized state Signals from VCU + ImmoStatusVcu = 1 +3. Perform a Mobilize my car Request from App +4.VCU Shall memorize the request received from TCU +5. VCU shall activate the mobilize when authentic key is detected +6. VCU shall update the Immobilization state signal (ImmoStatusVcu=='0') and publish over CAN to TCU post mobilization activation + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from VCU to TCU + ImmoStatusVcu = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) BCM performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is available. + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Immobilized state Signals from BCM + ImmoStatusBcm = 1 +3. Perform a Mobilize my car Request from App +4. BCM shall mobilize the vehicle if authentic key is available. + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) BCM performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Immobilized state Signals from BCM + ImmoStatusBcm = 1 +3. Perform a Mobilize my car Request from App +4.BCM Shall memorize the request received from TCU +5. BCM shall activate the mobilize when authentic key is detected +6. BCM shall update the Immobilization state signal (ImmoStatusBcm=='0') and publish over CAN to TCU post mobilization activation + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) PEPS performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is available. + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 0 +3. Perform a Mobilize my car Request from App +4. PEPS shall mobilize the vehicle if authentic key is available. + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 1 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) PEPS performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is not available. + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 0 +3. Perform a Mobilize my car Request from App +4. PEPS Shall memorize the request received from TCU +5. PEPS shall activate the mobilize when authentic key is detected +6. PEPS shall update the Immobilization state signal (VehicleMobilizationState =1) and publish over CAN to TCU post mobilization activation + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 1 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) Immo performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is available. + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Immobilized state Signals from Immo + ImmoStatusImmo = 1 +3. Perform a Mobilize my car Request from App +4. Immo shall mobilize the vehicle if authentic key is available. + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) Immo performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Immobilized state Signals from Immo + ImmoStatusImmo = 1 +3. Perform a Mobilize my car Request from App +4. Immo Shall memorize the request received from TCU +5. Immo shall activate the mobilize when authentic key is detected +6. Immo shall update the Immobilization state signal (ImmoStatusImmo = 0) and publish over CAN to TCU post mobilization activation + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) VCU performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is available. + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Immobilized state Signals from VCU + ImmoStatusVcu = 1 +3. Perform a Mobilize my car Request from App +4. VCU shall mobilize the vehicle if authentic key is available. + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from VCU to TCU + ImmoStatusVcu = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) VCU performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Immobilized state Signals from VCU + ImmoStatusVcu = 1 +3. Perform a Mobilize my car Request from App +4.VCU Shall memorize the request received from TCU +5. VCU shall activate the mobilize when authentic key is detected +6. VCU shall update the Immobilization state signal (ImmoStatusVcu=='0') and publish over CAN to TCU post mobilization activation + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from VCU to TCU + ImmoStatusVcu = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) BCM performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is available. + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Immobilized state Signals from BCM + ImmoStatusBcm = 1 +3. Perform a Mobilize my car Request from App +4. BCM shall mobilize the vehicle if authentic key is available. + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) BCM performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Immobilized state Signals from BCM + ImmoStatusBcm = 1 +3. Perform a Mobilize my car Request from App +4.BCM Shall memorize the request received from TCU +5. BCM shall activate the mobilize when authentic key is detected +6. BCM shall update the Immobilization state signal (ImmoStatusBcm=='0') and publish over CAN to TCU post mobilization activation + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) PEPS performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is available. + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 0 +3. Perform a Mobilize my car Request from App +4. PEPS shall mobilize the vehicle if authentic key is available. + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 1 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) PEPS performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is not available. + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 0 +3. Perform a Mobilize my car Request from App +4. PEPS Shall memorize the request received from TCU +5. PEPS shall activate the mobilize when authentic key is detected +6. PEPS shall update the Immobilization state signal (VehicleMobilizationState =1) and publish over CAN to TCU post mobilization activation + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 1 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) Immo performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is available. + +Test Procedure: + +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Immobilized state Signals from Immo + ImmoStatusImmo = 1 +3. Perform a Mobilize my car Request from App +4. Immo shall mobilize the vehicle if authentic key is available. + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App +4) Immo performs Vehicle Mobilization + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Immobilized state Signals from Immo + ImmoStatusImmo = 1 +3. Perform a Mobilize my car Request from App +4. Immo Shall memorize the request received from TCU +5. Immo shall activate the mobilize when authentic key is detected +6. Immo shall update the Immobilization state signal (ImmoStatusImmo = 0) and publish over CAN to TCU post mobilization activation + + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. Publish TCU_NMPDU signal over CAN +III. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 +IV. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +V. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 0 +VI.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +VII. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +VIII. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +IX Verify Vehicle Mobilization status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote vehicle Immobilize request from Cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set Vehicle Battery Voltage below 9V +3. Perform a remote Vehicle Immobilize Request from App + +Expected Output: +I. BCM/PEPS/Immo shall not execute the remote Immobilize Request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote vehicle Mobilize request from Cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set Vehicle Battery Voltage below 9V +3. Perform a remote Vehicle Mobilize Request from App + +Expected Output: +I. BCM/PEPS/Immo shall not execute the remote Mobilize Request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote vehicle Immobilize request from Cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set Vehicle Battery Voltage above 16V +3. Perform a remote Vehicle Immobilize Request from App + +Expected Output: +I. BCM/PEPS/Immo shall not execute the remote Immobilize Request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote vehicle Mobilize request from Cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set Vehicle Battery Voltage above 16V +3. Perform a remote Vehicle Mobilize Request from App + +Expected Output: +I. BCM/PEPS/Immo shall not execute the remote Mobilize Request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Testcase to verify that TCU, BCM/PEPS/Immo on receiving SNA or Implausible status or Don't Care of any signal, shall discard that signal. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) TCU received remote Immobilize my car request from Cloud + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.TCU sends the below CAN signals to VCU + RemoteImmoReq = 2 + RemoteImmoReqStatus = 3 + +Expected Output: + + +I. Verify VCU shall discard the signal from TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Testcase to verify that TCU, BCM/PEPS/Immo on receiving SNA or Implausible status or Don't Care of any signal, shall discard that signal. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) TCU received remote Immobilize my car request from Cloud + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.TCU sends the below CAN signals to BCM + RemoteImmoReq = 2 + RemoteImmoReqStatus = 1 + +Expected Output: + + +I. Verify BCM shall discard the signal from TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Testcase to verify that TCU, BCM/PEPS/Immo on receiving SNA or Implausible status or Don't Care of any signal, shall discard that signal. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) TCU received remote Immobilize my car request from Cloud + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.TCU sends the below CAN signals to PEPS + RemoteImmoReq = 2 + RemoteImmoReqStatus = 2 + +Expected Output: + + +I. Verify PEPS shall discard the signal from TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Testcase to verify that TCU, BCM/PEPS/Immo on receiving SNA or Implausible status or Don't Care of any signal, shall discard that signal. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) TCU received remote Immobilize my car request from Cloud + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.TCU sends the below CAN signals to Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 3 + +Expected Output: + + +I. Verify Immo shall discard the signal from TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + + +Test Procedure: +1.Turn Ignition Off in the vehicle + Powermode state = 1 +2. Perform a Immobilize my car Request from Cloud portal + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1.Turn Ignition Off in the vehicle + Powermode state = 0 +2. Perform a Immobilize my car Request from Cloud portal + +Expected Output: +I. TCU should wakeup on receiving the SMS, LED will start blinking +II. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +III. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +IV. Verify that TCU send Immobilization command as success repose to cloud +V. verify that user is not able to Crank the vehicle +VI. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Perform a Immobilize my car Request from Cloud portal + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Perform a Immobilize my car Request from Cloud portal + +Expected Output: +I. TCU should wakeup on receiving the SMS, LED will start blinking +II. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +III. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +IV. Verify that TCU send Immobilization command as success repose to cloud +V. verify that user is not able to Crank the vehicle +VI. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1.Turn Ignition Off in the vehicle + Powermode state = 0 +2.Perform a Immobilize my car Request from Cloud portal +3. Turn the Ignition On + Powermode = 6 + + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1.Turn Accessory On in the vehicle + Powermode state = 4 +2.Perform a Immobilize my car Request from Cloud Portal +3. Turn the Ignition On + Powermode = 6 + + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from App +3) Run VCU diagnostic routine for Mobilizing the vehicle. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4)Authentic key (manual/RKE) is available. + + +Test Procedure: +1.Turn Ignition Off in the vehicle + Powermode state = 0 +2. Perform Immobilize my car Request from Cloud Portal +3. Turn the Ignition On + Powermode = 6 +4. Vehicle is in the Immobilized state. +5. Run VCU diagnostic routine to Mobilize the vehicle. +6. Turn On the Ignition + Powermode = 6 + + + + + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud +VI. Vehicle should mobilized after running VCU diagnostic routine +VII. Check Vehiclemobilizationstate=1 in PEPS_RC2 message after VCU routine run + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1.Turn Ignition Off in the vehicle + Powermode state = 0 +2. Perform a Mobilize my car Request from Cloud Portal + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: +1.Turn Ignition Off in the vehicle + Powermode state = 0 +2. Perform a Mobilize my car Request from Cloud Portal + +Expected Output: +I. TCU should wakeup on receiving the SMS, LED will start blinking +II. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +III. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +IV. Verify that TCU send mobilization command as success repose to cloud +V. verify that user should able to able to Crank the vehicle now +VI. Verify that TCU exported mobilize event to cloud + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Perform a Mobilize my car Request from Cloud Portal + +Expected Output: + + +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Perform a Mobilize my car Request from Cloud Portal + +Expected Output: +I. TCU should wakeup on receiving the SMS, LED will start blinking +II. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +III. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +IV. Verify that TCU send mobilization command as success repose to cloud +V. verify that user should able to able to Crank the vehicle now +VI. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Authentic key (manual/RKE) is available. + +Test Procedure: +1.Turn Ignition Off in the vehicle + Powermode state = 0 +2. Perform Remote Mobilize my car Request from Cloud Portal +3. Authentic key is available. +4. Turn the Ignition On and drive motor shall be turned ON + Powermode = 6 + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Authentic key (manual/RKE) is not available. + +Test Procedure: +1.Turn Ignition Off in the vehicle + Powermode state = 0 +2. Perform Remote Mobilize my car Request from Cloud Portal +3. Authentic key is not available. +4. Vehicle Shall memorize the request received from TCU +5. Mobilization shall be activated only when the authentic key is detected +6. Turn the Ignition On after authentic key is detected. + Powermode = 6 + + + + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Authentic key (manual/RKE) is available. + +Test Procedure: +1.Turn Accessory On in the vehicle + Powermode state = 4 +2. Perform Remote Mobilize my car Request from Cloud Portal +3. Authentic key is available. +4. Turn the Ignition On and drive motor shall be turned ON + Powermode = 6 + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Authentic key (manual/RKE) is not available. + +Test Procedure: +1.Turn Accessory On in the vehicle + Powermode state = 4 +2. Perform Remote Mobilize my car Request from Cloud portal +3. Authentic key is not available. +4. Vehicle Shall memorize the request received from TCU +5. Mobilization shall be activated only when the authentic key is detected +6. Turn the Ignition On after authentic key is detected. + Powermode = 6 + + + + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + + +Test Procedure: +1.Turn Ignition On + Powermode state = 6 +2. Perform a Immobilize my car Request from Cloud Portal + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1.Turn Ignition On + Powermode state = 6 +2. Perform a Immobilize my car Request from Cloud Portal + +Expected Output: +I. TCU should wakeup on receiving the SMS, LED will start blinking +II. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +III. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +IV. Verify that TCU send Immobilization command as success repose to cloud +V. verify that user is not able to Crank the vehicle +VI. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + + +Test Procedure: +1.Turn Ignition On and start driving the vehicle + Powermode state = 8 +2. Perform a Immobilize my car Request from Cloud portal + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1.Turn Ignition On and start driving the vehicle + Powermode state = 8 +2. Perform a Immobilize my car Request from Cloud portal + +Expected Output: +I. TCU should wakeup on receiving the SMS, LED will start blinking +II. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +III. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +IV. Verify that TCU send Immobilization command as success repose to cloud +V. verify that user is not able to Crank the vehicle +VI. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1.Turn Ignition On + Powermode state = 6 +2.Perform a Immobilize my car Request from Cloud Portal +3. Turn Ignition from Off to On + Powermode state = 0 to 6 +4. Vehicle shall be in the Immobilized state. + + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1.Turn Ignition On and start driving the vehicle + Powermode state = 8 +2.Perform a Immobilize my car Request from Cloud Portal +3. Turn Ignition from Off to On + Powermode state = 0 to 6 +4. Vehicle shall be in the Immobilized state. + + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: + +1.Perform a Mobilize my car Request from Cloud Portal + +Expected Output: + + +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: + +1.Perform a Mobilize my car Request from Cloud Portal + +Expected Output: +I. TCU should wakeup on receiving the SMS, LED will start blinking +II. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +III. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +IV. Verify that TCU send mobilization command as success repose to cloud +V. verify that user should able to able to Crank the vehicle now +VI. Verify that TCU exported mobilize event to cloud + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App/ Layer-4 + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is available. + +Test Procedure: + +1.Perform a Mobilize my car Request from App/ Layer-4 Portal +2.Vehicle shall be mobilized if the authentic key is available. +3. Turn Ignition Off to On + Powermode state = 0 to 6 + +Expected Output: + + +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App/ Layer-4 portal + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is not available. + +Test Procedure: + + +1. Perform a Mobilize my car Request from App/Layer-4 portal +2.Vehicle shall memorize the request received from TCU +3. Vehicle shall activate the mobilize when authentic key is detected +4. Turn Ignition Off to On after authentic key is detected + Powermode state = 0 to 6 + +Expected Output: + + +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App + + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized +5)Authentic key (manual/RKE) is not available. + +Test Procedure: + + +1. Turn Ignition On and start running the vehicle + Powermode state = 8 +2. Perform a Immobilize my car Request from App +3. Turn Ignition Off to On (Vehicle is Immobilized) +4. Perform a Mobilize my car request from App +5.Vehicle shall memorize the request received from TCU +6. Vehicle shall activate the mobilize when authentic key is detected +7. Turn Ignition Off to On after authentic key is detected + (Vehicle is Mobilized) + + +Expected Output: + + +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send immobilization command as success repose to cloud +IV. Verify that TCU exported mobilize event to cloud +V. For Action 4, Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +VI. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +VII. Verify that TCU send mobilization command as success repose to cloud +VII. verify that user should able to able to Crank the vehicle now +VIII. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Remote Immobilization Request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Vehicle is OFF +2. Perform a Immobilize my car Request from App + + +Expected Output: +1. Check the time taken to get the Vehicle Immobilized information in Cloud +2. Check the time taken to get the Vehicle Immobilized notification on user mobile + (Repeat the Test procedure 5 times and note the Time taken for getting the response in cloud and in the Mobile App) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Remote Mobilization Request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Vehicle is OFF +2. Perform a Mobilize my car Request from App + + +Expected Output: +1. Check the time taken to get the Vehicle Mobilized information in Cloud +2. Check the time taken to get the Vehicle Mobilized notification on user mobile + (Repeat the Test procedure 5 times and note the Time taken for getting the response in cloud and in the Mobile App) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Remote Immobilization Request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Vehicle is On +2. Perform a Immobilize my car Request from App + + +Expected Output: +1. Check the time taken to get the Vehicle Immobilized information in Cloud +2. Check the time taken to get the Vehicle Immobilized notification on user mobile + (Repeat the Test procedure 5 times and note the Time taken for getting the response in cloud and in the Mobile App) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Remote Mobilization Request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Vehicle is On +2. Perform a Mobilize my car Request from App + + +Expected Output: +1. Check the time taken to get the Vehicle Mobilized information in Cloud +2. Check the time taken to get the Vehicle Mobilized notification on user mobile + (Repeat the Test procedure 5 times and note the Time taken for getting the response in cloud and in the Mobile App) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Remote Immobilization Request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Vehicle is On and start driving the vehicle +2. Perform a Immobilize my car Request from App + + +Expected Output: +1. Check the time taken to get the Vehicle Immobilized information in Cloud +2. Check the time taken to get the Vehicle Immobilized notification on user mobile + (Repeat the Test procedure 5 times and note the Time taken for getting the response in cloud and in the Mobile App) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Remote Mobilization Request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Vehicle is On and start driving the vehicle + +2. Perform a Immobilize my car Request from App + +Expected Output: +1. Check the time taken to get the Vehicle Mobilized information in Cloud +2. Check the time taken to get the Vehicle Mobilized notification on user mobile + (Repeat the Test procedure 5 times and note the Time taken for getting the response in cloud and in the Mobile App) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Vehicle is OFF + +2. Perform a Immobilize my car Request from App + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when Vehicle Immobilization is requested while Vehicle is in driving + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Vehicle is not Immobilized + +Test Procedure: +1. Vehicle is On and start driving the vehicle +2. Perform a Immobilize my car Request from App + + +Expected Output: +1. Check the Mobile App and vehicle behavior. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when Vehicle Mobilization is requested while Vehicle is in driving + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake + + +Test Procedure: +1. Vehicle is On and start driving the vehicle + +2. Perform a Immobilize my car Request from App + +Expected Output: +1. Check the Mobile App and vehicle behavior. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Vehicle is OFF + +2. Perform a Immobilize my car Request from App + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in signal strength weak condition + +Pre-condition: +1) TCU with a functioning SIM +2) Signal strength between Cloud and Mobile App is Weak +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Vehicle is ON + +2. Perform a Immobilize my car Request from App + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in signal strength weak condition + +Pre-condition: +1) TCU with a functioning SIM +2) Signal strength between Cloud and Mobile App is Weak +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Vehicle is On +2. Perform a Mobilize my car Request from App + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Vehicle is On and start driving the vehicle + +2. Perform a Mobilize my car Request from App + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Perform a Mobilize my car Request from App + + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network comes after requesting from the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Vehicle is OFF +2. Perform a Immobilize my car Request from App + + +Expected Output: +1. Cloud to TCU Network become strengthen after the request +2. Check whether the request will process or not. +3. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior when Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Perform a Mobilize my car Request from App + + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the how the request is processed in case of TCU failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. TCU failure condition to be simulated by removing the TCU connector +2. Vehicle is On and start driving the vehicle +3. Perform a Immobilize my car Request from App + + +Expected Output: +1. Check the Mobile App and vehicle behavior when TCU fail to process the request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing how the request is processed in case of TCU failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +4) Vehicle is Immobilized while driving + +Test Procedure: +1. TCU failure condition to be simulated by removing the TCU connector +2. Perform a Mobilize my car Request from App +' + +Expected Output: +1. Check the Mobile App and vehicle behavior when TCU fail to process the request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing how the request is processed in case of PEPS failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Vehicle is Immobilized + +Test Procedure: +1. PEPS failure condition to be simulated by removing the PEPS connector/ fuse. +2. Perform a Mobilize my car Request from App + + +Expected Output: +1. Check the Mobile App and vehicle behavior when PEPS fail to process the request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing how the request is processed in case Authentic key is not available in the range of the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Vehicle is Immobilized + +Test Procedure: +1. Perform a Mobilize my car Request from App + + +Expected Output: +1. Check the Mobile App and vehicle behavior when Authentic key is unavailable + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing how the request is processed in case of BCM failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Vehicle is not Immobilized + +Test Procedure: +1. BCM failure condition to be simulated by removing the BCM connector/ fuse. +2. Vehicle is OFF +3. Perform a Immobilize my car Request from App + + +Expected Output: +1. Check the Mobile App and vehicle behavior when BCM fail to process the request +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing how the request is processed in case of VCU failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Vehicle is not Immobilized + +Test Procedure: +1. VCU failure condition to be simulated by removing the VCU connector/ fuse. +1. Vehicle is OFF +2. Perform a Immobilize my car Request from App + + +Expected Output: +1. Check the Mobile App and vehicle behavior when VCU fail to process the request +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing how the request is processed in case of Immo ECU failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Vehicle is not Immobilized + +Test Procedure: +1. Vehicle is OFF +2. Perform a Mobilize my car Request from App + +Expected Output: +1. Check the Mobile App and vehicle behavior when Immo ECU fail to process the request +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior while Mobile Ap Close during requesting + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Vehicle is Immobilized + +Test Procedure: +1. Perform a Mobilize my car Request from Cloud Portal +2. Close the App after the request + + +Expected Output: +1. Check whether the request will be processed or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + + +Test Procedure: +1.Turn Ignition Off in the vehicle + Powermode state = 0 +2. Perform a Immobilize my car Request from Cloud portal +3. Remote Vehicle LV battery +4. Reconnect the LV battery again and try for crank the vehicle + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud +VI. Verify that TCU takes restart after removing Vehicle LV battery +VII. Verify that Vehicle is still in immobilized state after TCU restarts and user is unable to crank it. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized through remote commands + + +Test Procedure: +1.Turn Ignition Off in the vehicle + Powermode state = 0 +2. Perform a mobilize my car Request from Cloud portal +3. Remote Vehicle LV battery +4. Reconnect the LV battery again and try for crank the vehicle + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user is able to Crank the vehicle +V. Verify that TCU exported mobilize event to cloud +VI. Verify that TCU takes restart after removing Vehicle LV battery +VII. Verify that Vehicle is still in mobilized state after TCU restarts and user can crank the vehicle. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is mobilized + +Test Procedure: +1.IGN is ON and Car is in running powermode +2. Perform a Immobilize my car Request from Cloud portal +3. Do an IGN cycle. + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud. +VI. Verify that user is unable to crank the vehicle after doing IGN cycle. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is mobilized + +Test Procedure: +1.IGN is ON and Car is in running powermode +2. Perform a Immobilize my car Request from Cloud portal +3. Do an IGN cycle. +4. Allow the TCM to go to sleep. + + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud. +VI. Verify that user is unable to crank the vehicle after doing IGN cycle. +VII. Verify the vehicle is not getting auto- mobilized for next 10 ign cycles. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Mobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1.IGN is ON and Car is in running powermode +2. Perform a mobilize my car Request from Cloud portal +3. Do an IGN cycle. +4. Allow the TCM to go to sleep. + + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported mobilize event to cloud. +VI. Verify that user is unable to crank the vehicle after doing IGN cycle. +VII. Verify the vehicle is not getting auto- immobilized for next 10 ign cycles. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) TCU received remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) TCU received remote Immobilize my car request from Cloud + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.TCU sends the below CAN signals to VCU + RemoteImmoReq = 2 + RemoteImmoReqStatus = 3 + +Expected Output: +I. Verify VCU shall discard the signal from TCU + +======================================== + +======================================== + +Test Description: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) TCU received remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) TCU received remote Immobilize my car request from Cloud + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.TCU sends the below CAN signals to VCU + RemoteImmoReq = 2 + RemoteImmoReqStatus = 3 + +Expected Output: +I. Verify VCU shall discard the signal from TCU + +======================================== + +======================================== + +Test Description: +1)TCU is in the authorized state. +2) Testcase to verify that TCU, BCM/PEPS/Immo on receiving SNA or Implausible status or Don't Care of any signal, shall discard that signal. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) TCU received remote Immobilize my car request from Cloud + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.TCU sends the below CAN signals to BCM + RemoteImmoReq = 2 + RemoteImmoReqStatus = 1 + +Expected Output: +I. Verify BCM shall discard the signal from TCU + +======================================== + +======================================== + +Test Description: +1)TCU is in the authorized state. +2) Testcase to verify that TCU, BCM/PEPS/Immo on receiving SNA or Implausible status or Don't Care of any signal, shall discard that signal. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) TCU received remote Immobilize my car request from Cloud + +Test Procedure: +e Power Mode as Awake + Powermode state = 1 +2.TCU sends the below CAN signals to BCM + RemoteImmoReq = 2 + RemoteImmoReqStatus = 1 + +Expected Output: +I. Verify BCM shall discard the signal from TCU + +======================================== + +======================================== + +Test Description: +verify that TCU, BCM/PEPS/Immo on receiving SNA or Implausible status or Don't Care of any signal, shall discard that signal. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) TCU received remote Immobilize my car request from Cloud + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.TCU sends the below CAN signals to PEPS + RemoteImmoReq = 2 + RemoteImmoReqStatus = 2 + +Expected Output: +I. Verify PEPS shall discard the signal from TCU + +======================================== + +======================================== + +Test Description: +verify that TCU, BCM/PEPS/Immo on receiving SNA or Implausible status or Don't Care of any signal, shall discard that signal. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) TCU received remote Immobilize my car request from Cloud + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.TCU sends the below CAN signals to PEPS + RemoteImmoReq = 2 + RemoteImmoReqStatus = 2 + +Expected Output: +I. Verify PEPS shall discard the signal from TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Testcase to verify that TCU, BCM/PEPS/Immo on receiving SNA or Implausible status or Don't Care of any signal, shall discard that signal. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) TCU received remote Immobilize my car request from Cloud + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.TCU sends the below CAN signals to Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 3 + +Expected Output: +I. Verify Immo shall discard the signal from TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Testcase to verify that TCU, BCM/PEPS/Immo on receiving SNA or Implausible status or Don't Care of any signal, shall discard that signal. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) TCU received remote Immobilize my car request from Cloud + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2.TCU sends the below CAN signals to Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 3 + +Expected Output: +I. Verify Immo shall discard the signal from TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) VCU, on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusImmo = 0 +3.Perform a Immobilize my car Request from App + +Expected Output: +RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) VCU, on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusImmo = 0 +3.Perform a Immobilize my car Request from App + +Expected Output: +RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) BCM on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Not Immobilized state Signals from BCM + +Expected Output: +RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) BCM on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Not Immobilized state Signals from BCM + +Expected Output: +RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) PEPS on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Not Immobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 2 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) PEPS on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Not Immobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 2 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) VCU, on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusImmo = 0 +3.Perform a Immobilize my car Request from App + +Expected Output: +RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +XI. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) VCU, on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusImmo = 0 +3.Perform a Immobilize my car Request from App + +Expected Output: +RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +XI. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) PEPS on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Not Immobilized state Signals from PEPS + VehicleMobilizationState = 1 +3.Perform a Immobilize my car Request from App + +Expected Output: +RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 2 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) PEPS on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Not Immobilized state Signals from PEPS + VehicleMobilizationState = 1 +3.Perform a Immobilize my car Request from App + +Expected Output: +RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from PEPS to TCU + VehicleMobilizationState = 2 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) VCU, on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusImmo = 0 +3.Perform a Immobilize my car Request from App + +Expected Output: +RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 + XII. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) VCU, on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusImmo = 0 +3.Perform a Immobilize my car Request from App + +Expected Output: +RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from Immo to TCU + ImmoStatusImmo = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +X1. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 + XII. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) Immo on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusBcm = 0 +3.Perform a Immobilize my car Request from App + +Expected Output: +RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from PEPS to TCU + ImmoStatusBcm = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +XI. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) Immo on reading Immobilize request (If RemoteImmoReq == "2") from TCU, shall immediately Immobilize the vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not in Immobilized state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Vehicle Not Immobilized state Signals from Immo + ImmoStatusBcm = 0 +3.Perform a Immobilize my car Request from App + +Expected Output: +RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +VI. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VII.BCM shall wake up VCU/PEPS/Immo as per TML_NexonEV_Wake_Up_Strategy. + +VIII. Verify the following CAN message from PEPS to TCU + ImmoStatusBcm = 1 +IX.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +X. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +XI. Verify the following message from TCU to CAN Bus after Immobilization. + ImmobilizeCommandWakeLock = 0 +XII. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Perform a Immobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Perform a Immobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives Remote Immobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + +III.Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + +III.Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + +III.Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2.Perform a Immobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand + +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + +III.Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) BCM performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Not Immobilized state Signals from BCM + ImmoStatusBcm = 0 +3.Perform a Immobilize my car Request from App +4. BCM shall activate the immobilize state + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from BCM + ImmoStatusBcm = 1 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 + +XI Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) BCM performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Not Immobilized state Signals from BCM + ImmoStatusBcm = 0 +3.Perform a Immobilize my car Request from App +4. BCM shall activate the immobilize state + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from BCM + ImmoStatusBcm = 1 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 + +XI Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) PEPS performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Not Immobilized state Signals from PEPS + VehicleMobilizationState = 1 +3.Perform a Immobilize my car Request from App +4. PEPS shall activate the immobilize state + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from PEPS + VehicleMobilizationState = 2 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 + +X Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) PEPS performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Not Immobilized state Signals from PEPS + VehicleMobilizationState = 1 +3.Perform a Immobilize my car Request from App +4. PEPS shall activate the immobilize state + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from PEPS + VehicleMobilizationState = 2 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 + +X Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) VCU performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Not Immobilized state Signals from VCU + ImmoStatusVcu = 0 +3.Perform a Immobilize my car Request from App +4. VCU shall activate the immobilize state + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from VCU + ImmoStatusVcu = 1 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 + +X Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) VCU performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Not Immobilized state Signals from VCU + ImmoStatusVcu = 0 +3.Perform a Immobilize my car Request from App +4. VCU shall activate the immobilize state + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from VCU + ImmoStatusVcu = 1 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 + +X Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) VCU performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Not Immobilized state Signals from PEPS + VehicleMobilizationState = 1 +3.Perform a Immobilize my car Request from App +4. PEPS shall activate the immobilize state + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from PEPS + VehicleMobilizationState = 2 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 +X Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud +3) VCU performs Vehicle Immobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Not Immobilized state Signals from PEPS + VehicleMobilizationState = 1 +3.Perform a Immobilize my car Request from App +4. PEPS shall activate the immobilize state + +Expected Output: +I. Verify the following Message in the Cloud: + ImmobilizeVehicleCommand +II.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock +III.Publish TCU_NMPDU signal over CAN +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. Verify the following message from PEPS + VehicleMobilizationState = 2 +VII.Send Response of ImmobilizeVehicleCommand to Cloud as per TMCVP Document + ImmobilizeVehicleCommandResponse +VIII. Send VehicleImmobilizeEvent to Cloud as per TMCVP Document + VehicleImmobilizeEvent +IX. Release Immobilize Command Wake lock .Verify the following message from TCU in CAN Bus + ImmobilizeCommandWakeLock = 0 +X Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1.Turn Ignition On and start driving the vehicle + Powermode state = 8 +2.Perform a Immobilize my car Request from Cloud Portal +3. Turn Ignition from Off to On + Powermode state = 0 to 6 +4. Vehicle shall be in the Immobilized state. + + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1.Turn Ignition On and start driving the vehicle + Powermode state = 8 +2.Perform a Immobilize my car Request from Cloud Portal +3. Turn Ignition from Off to On + Powermode state = 0 to 6 +4. Vehicle shall be in the Immobilized state. + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1.Turn Ignition On + Powermode state = 6 +2.Perform a Immobilize my car Request from Cloud Portal +3. Turn Ignition from Off to On + Powermode state = 0 to 6 +4. Vehicle shall be in the Immobilized state. + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is not Immobilized + +Test Procedure: +1.Turn Ignition On + Powermode state = 6 +2.Perform a Immobilize my car Request from Cloud Portal +3. Turn Ignition from Off to On + Powermode state = 0 to 6 +4. Vehicle shall be in the Immobilized state. + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=2 in PEPS_RC2 message +III. Verify that TCU send Immobilization command as success repose to cloud +IV. verify that user is not able to Crank the vehicle +V. Verify that TCU exported Immobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Immobilized state + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Immobilized state Signals from PEPS + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Immobilized state Signals from PEPS + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Perform a Mobilize my car Request from App + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. TCU shall set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + +III Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Perform a Mobilize my car Request from App + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. TCU shall set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + +III Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Perform a Mobilize my car Request from App + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. TCU shall set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + +III Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Perform a Mobilize my car Request from App + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. TCU shall set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + +III Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Perform a Mobilize my car Request from App + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. TCU shall set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + +III Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Vehicle is in the Immobilized state. +3) TCU receives remote mobilize my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Perform a Mobilize my car Request from App + +Expected Output: +I Verify the following Message in the Cloud: + MobilizeVehicleCommand +II. TCU shall set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + +III Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 + +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Mobilized state ( Signals from PEPS) + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Vehicle Mobilized state ( Signals from PEPS) + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Ignition + Powermode state = 6 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + 1. Set the Power Mode as Awake + Powermode state = 1 +2.Perform a Immobilize my car Request from App + +Expected Output: + I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + 1. Set the Power Mode as Awake + Powermode state = 1 +2.Perform a Immobilize my car Request from App + +Expected Output: + I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + 1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2.Perform a Immobilize my car Request from App + +Expected Output: +I.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock =1 + +II.Wakeup BCM by activating outbound hardwire wakeup line + +III. Publish TCU_NMPDU message over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +V. TCU export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: + 1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2.Perform a Immobilize my car Request from App + +Expected Output: +I.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock =1 + +II.Wakeup BCM by activating outbound hardwire wakeup line + +III. Publish TCU_NMPDU message over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +V. TCU export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2.Perform a Immobilize my car Request from App + +Expected Output: +I.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock =1 + +II.Wakeup BCM by activating outbound hardwire wakeup line + +III. Publish TCU_NMPDU message over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +V. TCU export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Immobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2.Perform a Immobilize my car Request from App + +Expected Output: +I.Set Immobilize Command Wake Lock with timer Par_ImmobilizeCommandWakeLock + Immobilize Command Wake Lock =1 + +II.Wakeup BCM by activating outbound hardwire wakeup line + +III. Publish TCU_NMPDU message over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 2 + RemoteImmoReqStatus = 0 + +V. TCU export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN signals rom PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 2 + +Expected Output: + I. TCU shall send Vehic immmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN signals rom PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 2 + +Expected Output: + I. TCU shall send Vehic immmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN signals rom PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 2 + +Expected Output: + I. TCU shall send Vehic immmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN signals rom PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 2 + +Expected Output: + I. TCU shall send Vehic immmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 2 + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +) TCU is in the authorized state. +2) PEPS publish vehicle Immobilised state signals to TCU +3) TCU read positive vehicle Immobilised state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 2 + +Expected Output: +I. TCU shall send VehicleImmobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of ImmobilizeVehicleCommand information to Cloud + +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilized state signals to TCU +3) TCU read positive vehicle Immobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 2 + +Expected Output: +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Immobilized state signals to TCU +3) TCU read positive vehicle Immobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Immobilized state Signals from PEPS + VehicleMobilizationState = 2 + +Expected Output: +III. TCU shall release Immobilize Command Wake lock if successfully immobilized or Par_ImmobilizeCommandWakeLock timer expires + +IV. Verify Vehicle Immobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: + 1. Set the Power Mode as Accessory delay + Powermode state = 5 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: + 1. Set the Power Mode as Accessory delay + Powermode state = 5 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is sleep +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Cloud shall wake up TCU over SMS +II. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: + 1. Set the Power Mode as Accessory + Powermode state = 4 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Immobilized + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2.Perform a Mobilize my car Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + MobilizeVehicleCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Authentic key (manual/RKE) is available. + +Test Procedure: +1.Turn Accessory On in the vehicle + Powermode state = 4 +2. Perform Remote Mobilize my car Request from Cloud Portal +3. Authentic key is available. +4. Turn the Ignition On and drive motor shall be turned ON + Powermode = 6 + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Authentic key (manual/RKE) is available. + +Test Procedure: +1.Turn Accessory On in the vehicle + Powermode state = 4 +2. Perform Remote Mobilize my car Request from Cloud Portal +3. Authentic key is available. +4. Turn the Ignition On and drive motor shall be turned ON + Powermode = 6 + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Authentic key (manual/RKE) is available. + +Test Procedure: +1.Turn Ignition Off in the vehicle + Powermode state = 0 +2. Perform Remote Mobilize my car Request from Cloud Portal +3. Authentic key is available. +4. Turn the Ignition On and drive motor shall be turned ON + Powermode = 6 + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2)TCU SIM card have sufficient network strength +3) TCU is awake +4) Authentic key (manual/RKE) is available. + +Test Procedure: +1.Turn Ignition Off in the vehicle + Powermode state = 0 +2. Perform Remote Mobilize my car Request from Cloud Portal +3. Authentic key is available. +4. Turn the Ignition On and drive motor shall be turned ON + Powermode = 6 + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2.Perform a Mobilize my car Request from App + +Expected Output: + I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 + +V. TCU shall export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2.Perform a Mobilize my car Request from App + +Expected Output: + I.TCU set MobilizeCommandWakeLock with timer Par_MobilizeCommandWakeLock + MobilizeCommandWakeLock =1 +II. Wakeup BCM by activating hardwire wakeup line +III. Publish TCU_NMPDU signal over CAN + +IV. Verify the following CAN message from TCU to BCM/PEPS/Immo + RemoteImmoReq = 1 + RemoteImmoReqStatus = 0 + +V. TCU shall export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP + +VI. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) PEPS publish vehicle Mobilised state signals to TCU +3) TCU read positive vehicle mobilized state CAN signals from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Mobilized state Signals from PEPS + VehicleMobilizationState = 1 + +Expected Output: +I. TCU shall send VehicleMobilizeEvent information to Cloud as per TMCVP Document + +II TCU shall send response of MobilizeVehicleCommand information to Cloud + +III. TCU shall release Mobilize Command Wake lock if successfully mobilized or Par_MobilizeCommandWakeLocktimer expires + +IV. Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) BCM performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Immobilize Status Signal from BCM + ImmoStatusBcm = 1 +3.Perform a Mobilize my car Request from App +4. BCM Shall memorize the request received from TCU +5. BCM shall activate the mobilize when authentic key is detected +6. BCM shall update the Immobilization state signal (ImmoStatusBcm = 0) and publish over CAN to TCU post mobilization activation + +Expected Output: + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) BCM performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Vehicle Immobilize Status Signal from BCM + ImmoStatusBcm = 1 +3.Perform a Mobilize my car Request from App +4. BCM Shall memorize the request received from TCU +5. BCM shall activate the mobilize when authentic key is detected +6. BCM shall update the Immobilization state signal (ImmoStatusBcm = 0) and publish over CAN to TCU post mobilization activation + +Expected Output: + RemoteImmoReqStatus = 0 +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from BCM to TCU + ImmoStatusBcm = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 +XI Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) VCU performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilize Status Signal from VCU + ImmoStatusVcu = 1 +3.Perform a Mobilize my car Request from App +4. VCU Shall memorize the request received from TCU +5. VCU shall activate the mobilize when authentic key is detected +6. VCU shall update the Immobilization state signal (ImmoStatusVcu = 0) and publish over CAN to TCU post mobilization activation + + +Expected Output: +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from VCU to TCU + ImmoStatusVcu = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 + +XI Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud +3) VCU performs Vehicle Mobilization + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Vehicle is Immobilized +5) Authentic key (manual/RKE) is not available. + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Vehicle Immobilize Status Signal from VCU + ImmoStatusVcu = 1 +3.Perform a Mobilize my car Request from App +4. VCU Shall memorize the request received from TCU +5. VCU shall activate the mobilize when authentic key is detected +6. VCU shall update the Immobilization state signal (ImmoStatusVcu = 0) and publish over CAN to TCU post mobilization activation + +Expected Output: +V. Export the RemoteImmoReq and RemoteImmoReqStatus to cloud platform as per TMCVP +VI. BCM shall wake up VCU as per TML_NexonEV_Wake_Up_Strategy +VII. Verify the following CAN message from VCU to TCU + ImmoStatusVcu = 0 +VIII.Send Response of MobilizeVehicleCommand to Cloud as per TMCVP Document + MobilizeVehicleCommandResponse +IX. Send VehicleMobilizeEvent to Cloud as per TMCVP Document + VehicleMobilizeEvent +X. Verify the following message from TCU in CAN Bus + MobilizeCommandWakeLock = 0 + +XI Verify Vehicle Mobilization status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Authentic key (manual/RKE) is not available. + +Test Procedure: +1.Turn Accessory On in the vehicle + Powermode state = 4 +2. Perform Remote Mobilize my car Request from Cloud portal +3. Authentic key is not available. +4. Vehicle Shall memorize the request received from TCU +5. Mobilization shall be activated only when the authentic key is detected +6. Turn the Ignition On after authentic key is detected. + Powermode = 6 + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Mobilize my car request from Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Authentic key (manual/RKE) is not available. + +Test Procedure: +1.Turn Accessory On in the vehicle + Powermode state = 4 +2. Perform Remote Mobilize my car Request from Cloud portal +3. Authentic key is not available. +4. Vehicle Shall memorize the request received from TCU +5. Mobilization shall be activated only when the authentic key is detected +6. Turn the Ignition On after authentic key is detected. + Powermode = 6 + +Expected Output: +I. Verify TCU publishes Telematics_Event_RC4_Msg(1EF) on CAN. +II. Verify Vehiclemobilizationstate=1 in PEPS_RC2 message +III. Verify that TCU send mobilization command as success repose to cloud +IV. verify that user should able to able to Crank the vehicle now +V. Verify that TCU exported mobilize event to cloud + +======================================== + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Distance travelled in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN on) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that toltal distance travlled mentioned in monthly health report. +2. Verify that the total distance mentioned in application and odometer should be same. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Distance travelled in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that toltal distance travlled mentioned in monthly health report. +2. Verify that the total distance mentioned in application and odometer should be same. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the number of engine starts in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN On) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that toltal number engine starts mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the number of engine starts in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that toltal number engine starts mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the top speed information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that top speed information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the top speed information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that top speed information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the fuel lost to idling information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that fuel lost to idling information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the fuel lost to idling information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that fuel lost to idling information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the drive time information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(ING ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that drive time information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the drive time information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that drive time information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the idel time information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that idel time information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the idel time information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that idel time information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the engine on time information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that engine on time information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the engine on time information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that engine on time information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Driver behaviour information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that driver behaviour information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Driver behaviour information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that driver behaviour information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the AC On% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that AC On% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the AC On% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that AC On% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the AC Off% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that AC Off% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the AC Off% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that AC Off% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the city mode% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that city mode% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the city mode% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that city mode% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the eco mode% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that eco mode% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the eco mode% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that eco mode% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the sorts mode% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that sports mode% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the sports mode% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that sports mode% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the petrol mode time% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that petrol mode time% information mentioned in monthly health report. +2. verify the addition off CNG mode and petrol mode should be 100% + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the petrol mode time% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that petrol mode time% information mentioned in monthly health report. +2. verify the addition off CNG mode and petrol mode should be 100% + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the CNG mode time% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that CNG mode time% information mentioned in monthly health report. +2. verify the addition off CNG mode and petrol mode should be 100% + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the CNG mode time% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that CNG mode time% information mentioned in monthly health report. +2. verify the addition off CNG mode and petrol mode should be 100% + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the feature usage report information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that feature usage report information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the feature usage report information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that feature usage report information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Distance travelled in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN on) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that toltal distance travlled mentioned in monthly health report. +2. Verify that the total distance mentioned in application and odometer should be same. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Distance travelled in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that toltal distance travlled mentioned in monthly health report. +2. Verify that the total distance mentioned in application and odometer should be same. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the number of engine starts in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN On) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that toltal number engine starts mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the number of engine starts in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that toltal number engine starts mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the top speed information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that top speed information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the top speed information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that top speed information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the fuel lost to idling information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that fuel lost to idling information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the fuel lost to idling information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that fuel lost to idling information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the drive time information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(ING ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that drive time information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the drive time information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that drive time information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the idel time information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that idel time information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the idel time information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that idel time information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the engine on time information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that engine on time information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the engine on time information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that engine on time information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Driver behaviour information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that driver behaviour information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Driver behaviour information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that driver behaviour information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the AC On% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that AC On% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the AC On% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that AC On% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the AC Off% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that AC Off% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the AC Off% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that AC Off% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the city mode% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that city mode% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the city mode% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that city mode% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the eco mode% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that eco mode% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the eco mode% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that eco mode% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the sorts mode% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that sports mode% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the sports mode% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that sports mode% information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the petrol mode time% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that petrol mode time% information mentioned in monthly health report. +2. verify the addition off CNG mode and petrol mode should be 100% + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the petrol mode time% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that petrol mode time% information mentioned in monthly health report. +2. verify the addition off CNG mode and petrol mode should be 100% + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the CNG mode time% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that CNG mode time% information mentioned in monthly health report. +2. verify the addition off CNG mode and petrol mode should be 100% + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the CNG mode time% information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that CNG mode time% information mentioned in monthly health report. +2. verify the addition off CNG mode and petrol mode should be 100% + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the feature usage report information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 6(IGN ON) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that feature usage report information mentioned in monthly health report. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the feature usage report information in monthly health report + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8(run) +2. Login to the connected car application and go to the profile +3. Click on the monthly health report. + +Expected Output: +1. Verify that feature usage report information mentioned in monthly health report. + + +======================================== + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state.  +2) TCM detect Tow Away condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Simulate a Tow Away condition + +Expected Output: +I. verified the following details is removed in the Cloud:         +a. Telemetry Record Element - TowAway/unauthorizedMovementAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. verified the TowAway/unauthorizedMovementAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform a Vehicle Unlock Request from App + +Expected Output: +I. Verify the following Message in the Cloud: + UnlockVehicleCommand + +II. Set Vehicle Unlock Command Wake lock with timer Par_VehicleUnlockCmdWakeLock + +III. Wakeup BCM by activating hardwire wakeup line + +IV. Publish TCU_NMPDU message over CAN + +V. Set remote vehicle unlock request over CAN to BCM + RemoteVehicleUnlockCmd = 1 + RemoteVehicleUnlockCmdStatus = 0 + +VI. Export the RemoteVehicleUnlockCmd and RemoteVehicleUnlockCmdStatus to cloud platform as per TMCVP (raw CAN message) over GSM/GPRS communication. + +VII. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform a Vehicle Unlock Request from App + +Expected Output: + +I. Cloud shall wake up TCU over SMS + +II. Verify the following Message in the Cloud: + UnlockVehicleCommand + +III. Set Vehicle Unlock Command Wake lock with timer Par_VehicleUnlockCmdWakeLock + +IV. Wakeup BCM by activating hardwire wakeup line + +V. Publish TCU_NMPDU message over CAN + +VI. Set remote vehicle unlock request over CAN to BCM + RemoteVehicleUnlockCmd = 1 + RemoteVehicleUnlockCmdStatus = 0 + +VII. Export the RemoteVehicleUnlockCmd and RemoteVehicleUnlockCmdStatus to cloud platform as per TMCVP (raw CAN message) over GSM/GPRS communication. + +VIII. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote vehicle unlock request from Cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Ignition + Power mode state = 6 +2. Perform a Vehicle Unlock Request from App + +Expected Output: + + +I.TCU shall ignore the command from cloud if Ignition is ON. + Verify RemoteVehicleUnlockCmd is not in the CAN Bus + +II. Verify Vehicle Unlock status is not updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform a Vehicle Unlock Request from App +3. Set the Vehicle Lock State Signal from BCM. + VehicleLockState = 7 + VehicleLockStateStatus = 0 + +Expected Output: + + +I. TCU read vehicle lock State (VehicleLockState) on CAN from BCM during Par_VehicleUnlockCmdWakeLock timer. + +II. TCU send vehicle unlock request response (Response of UnlockVehicleCmd) to Cloud as per TMCVP Document via GSM/GPRS communication + +III. TCU export the VehicleUnlockEvent to cloud platform as per TMCVP (Events) GSM/GPRS communication. + +IV. Verify Vehicle Lock/Unlock Status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform a Vehicle Unlock Request from App +3. Set the Vehicle Lock State Signal from BCM. + VehicleLockState = 7 + VehicleLockStateStatus = 2 + +Expected Output: +TCU Should send fail as response to the cloud. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform a Vehicle Unlock Request from App +3. Set the Vehicle Lock State Signal from BCM. + VehicleLockState = 7 + VehicleLockStateStatus = 3 + +Expected Output: +TCU Should send fail as response to the cloud. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform a Vehicle Lock Request from App + +Expected Output: + + +I. Verify the following Message in the Cloud: + LockVehicleCommand + +II. Set Vehicle Unlock Command Wake lock with timer Par_VehicleUnlockCmdWakeLock + +III. Wakeup BCM by activating hardwire wakeup line + +IV. Publish TCU_NMPDU message over CAN + +V. Set remote vehicle Lock request over CAN to BCM + RemoteVehiclelockCmd = 1 + RemoteVehiclelockCmdStatus = 0 + +VI. Export the RemoteVehicleUnlockCmd and RemoteVehicleUnlockCmdStatus to cloud platform as per TMCVP (raw CAN message) over GSM/GPRS communication. + +VII. Verify Vehicle Lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform a Vehicle Lock Request from App + +Expected Output: + +I. Cloud shall wake up TCU over SMS + +II. Verify the following Message in the Cloud: + LockVehicleCommand + +III. Set Vehicle Unlock Command Wake lock with timer Par_VehicleUnlockCmdWakeLock + +IV. Wakeup BCM by activating hardwire wakeup line + +V. Publish TCU_NMPDU message over CAN + +VI. Set remote vehicle Lock request over CAN to BCM + RemoteVehiclelockCmd = 1 + RemoteVehiclelockCmdStatus = 0 + +VII. Export the RemoteVehiclelockCmd and RemoteVehiclelockCmdStatus to cloud platform as per TMCVP (raw CAN message) over GSM/GPRS communication. + +VIII. Verify Vehicle Lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Ignition + Power mode state = 6 +2. Perform a Vehicle Lock Request from App + +Expected Output: + + +I.TCU shall ignore the command from cloud if Ignition is ON. + Verify RemoteVehicleLockCmd is not in the CAN Bus + +II. Verify Vehicle lock status is not updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform a Vehicle Lock Request from App +3. Set the Vehicle Lock State Signal from BCM. + VehicleLockState = 6 + VehicleLockStateStatus = 0 + +Expected Output: + + +I. TCU read vehicle lock State (VehicleLockState) on CAN from BCM during Par_VehicleUnlockCmdWakeLock timer. + +II. TCU send vehicle lock request response (Response of UnlockVehicleCmd) to Cloud as per TMCVP Document via GSM/GPRS communication + +III. TCU export the VehiclelockEvent to cloud platform as per TMCVP (Events) GSM/GPRS communication. + +IV. Verify Vehicle Lock/Unlock Status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform a Vehicle Lock Request from App +3. Set the Vehicle Lock State Signal from BCM. + VehicleLockState = 6 + VehicleLockStateStatus = 2 + +Expected Output: + + +I. Verify TCU shall discard the signal from BCM. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform a Vehicle Lock Request from App +3. Set the Vehicle Lock State Signal from BCM. + VehicleLockState = 6 + VehicleLockStateStatus = 3 + +Expected Output: + + +I. Verify TCU shall discard the signal from BCM. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II.Verify BCM is unlocking the vehicle by seeing vehiclelockstate signal in BCM_HU_IC_Trailer message. +III. Verify BCM response Vehicle Lock/Unlock Status to TCU +IV. TCU send vehicle unlock request response as success to Cloud +V. Verify that TCU export the VehicleUnlockEvent to cloud platform +VI. Verify Vehicle Unlock status is updated in the Mobile App +VII. Verify turn indicators flash only one time + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + +Expected Output: + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III.Verify BCM is unlocking the vehicle by seeing vehiclelockstate signal in BCM_HU_IC_Trailer message. +IV. TCU send vehicle unlock request response Success to Cloud +V. Verify that TCU export the VehicleUnlockEvent to cloud platform +VI. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + + +Expected Output: + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III.Verify that vehicle lock state should changed to "TCU unlocked" as vehicle is already unlocked. +IV. TCU send vehicle unlock request response failed to Cloud +V. Verify that TCU export the VehicleUnlockEvent to cloud platform +VI. Verify Vehicle Unlock status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote vehicle unlock request from Cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Locked + +Test Procedure: +1. Vehicle is in Ignition ON +2. Perform a Vehicle Unlock Request from App + +Expected Output: + + +I.TCU shall ignore the command from cloud if Ignition is ON. + Verify RemoteVehicleUnlockCmd is not in the CAN Bus + +II. Verify Vehicle Unlock status is not updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II.Verify BCM that vehicle lock state should changed to "TCU locked" in BCM_HU_IC_Trailer message. +III. TCU send vehicle lock request response as success to Cloud as vehicle is already locked +IV. Verify that TCU export the NO VehiclelockEvent to cloud platform as it is already locked +V. Verify Vehicle lock status is updated in the Mobile App +VI. Verify turn indicators flash only two time + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Lock Request from App + +Expected Output: + +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is locking the vehicle via remote command only by seeing vehicle lock state in BCM_HU_IC_Trailer message. +III. Verify BCM response Vehicle Lock/Unlock Status to TCU +IV. TCU send vehicle lock request response Success to Cloud +V. Verify that TCU export the VehiclelockEvent to cloud platform +VI. Verify Vehicle lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Lock Request from App + +Expected Output: + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III.Verify that vehicle lock state should changed to "TCU locked" as vehicle is already unlocked. +IV. TCU send vehicle lock request response Success to Cloud +V. Verify that TCU export the VehiclelockEvent to cloud platform +VI. Verify Vehicle lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is in Ignition ON +2. Perform a Vehicle Lock Request from App + +Expected Output: + + +I.TCU shall ignore the command from cloud if Ignition is ON. + Verify RemoteVehicleUnlockCmd is not in the CAN Bus + +II. Verify Vehicle Lock status is not updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Lock Request from App + +Expected Output: + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM that vehicle lock state should changed to "TCU locked" in BCM_HU_IC_Trailer message. +III. TCU send vehicle lock request response as success to Cloud as vehicle is already locked +IV. Verify Vehicle lock status is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Any One door Open +2. Perform a Vehicle Lock Request from App + +Expected Output: + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM that vehicle lock state should changed to "TCU locked" and suddenly to "Unlocked" in BCM_HU_IC_Trailer message. +III. TCU send vehicle lock request response as failure to Cloud as vehicle couldn't get locked due to door open condition +IV. Verify Vehicle lock status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Wait for Auto relock +2. Perform a Vehicle Lock Request from App + +Expected Output: + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM that vehicle lock state should changed to "TCU locked" and suddenly to "Unlocked" in BCM_HU_IC_Trailer message. +III. TCU send vehicle lock request response as failure to Cloud as vehicle couldn't get locked due to door open condition +IV. Verify Vehicle lock status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. +3) Test case for analyzing the time for processing the request and getting the feedback + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + + +Expected Output: +1. Check the time for Unlocking the Vehicle. +2. Check the time for getting Acknowledgement in the Mobile App. + (Repeat the Test procedure 5 times and note the Time taken for processing the request and getting the Acknowledgement) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. +3) Test case for analyzing the time for processing the request and getting the feedback + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Lock Request from App + + +Expected Output: +1. Check the time for Locking the Vehicle. +2. Check the time for getting Acknowledgement in the Mobile App. + (Repeat the Test procedure 5 times and note the Time taken for processing the request and getting the Acknowledgement) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App's behavior if any Network issue between Mobile App and Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud signal strength is Weak +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + +Expected Output: + +1.Check any Notifications is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App's behavior if any Network issue between Mobile App and Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud signal strength is Weak +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Lock Request from App + + +Expected Output: +1.Check any Notifications is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. +3) Test case for analyzing retry Mechanism if Network is not available + +Pre-condition: +1) TCU with a functioning SIM +2) Vehicle is in No Network Area +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + + +Expected Output: +1. Verify Remote Vehicle Unlock command at the platform is timed out after 1 min +2.Check any Notifications is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. +3) Test case for analyzing retry Mechanism if Network is not available + +Pre-condition: +1) TCU with a functioning SIM +2) Vehicle is in No Network Area +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Lock Request from App + + +Expected Output: +1. Verify Remote Vehicle lock command at the platform is timed out after 1 min +2.Check any Notifications is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud's behavior if any Network issue between Cloud and TCU + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + + +Expected Output: +1.Check any Notifications is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud's behavior if any Network issue between Cloud and TCU + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1.Check any Notifications is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Requesting Vehicle Lock from Mobile App when there is a hardware failure in TCU + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked +6) TCU did not receive SMS and failed to wakeup + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + + +Expected Output: +1. Verify the behavior in the Vehicle and Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Requesting Vehicle Lock from Mobile App when there is a hardware failure in TCU + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked +6) TCU did not receive SMS and failed to wakeup + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Lock Request from App + + +Expected Output: +1. Verify the behavior in the Vehicle and Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior when processing the Remote Request + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud and Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Close the App + + +Expected Output: +1. Check whether the request is processed or Not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. +3) Test case for analyzing the vehicle behavior when the Network available after requesting to lock the Vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) Vehicle is in No Network Area +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Network available after sometime the vehicle lock request is initiated + + +Expected Output: +1. Check Cloud shall process the request once the Network is available + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. +3) Test case for analyzing the vehicle behavior when the Network available after requesting to Unlock the Vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) Vehicle is in No Network Area +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App +3. Network available after sometime the vehicle unlock request is initiated + + +Expected Output: +1. Check Cloud shall process the request once the Network is available + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the behavior when multiple task is requested by the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Immediately perform a Vehicle Lock request from App again + + +Expected Output: +1. Check the behavior of Vehicle and the Mobile App. +2. After giving the first command app should not allow to give second command untill the first command status is received. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyze the Vehicle and Mobile App behavior when processing Lock/Unlock request considering the Doors state + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Open Driver door and close it + + +Expected Output: +1. Verify Acknowledgement is showed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyze the Vehicle and Mobile App behavior when processing Lock/Unlock request considering the Doors state + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Open Front Passenger door and close it + + +Expected Output: +1. Verify Acknowledgement is showed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyze the Vehicle and Mobile App behavior when processing Lock/Unlock request considering the Doors state + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Open Rear Right Passenger door and close it + + +Expected Output: +1. Verify Acknowledgement is showed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyze the Vehicle and Mobile App behavior when processing Lock/Unlock request considering the Doors state + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Open Rear Left Passenger door and close it + + +Expected Output: +1. Verify Acknowledgement is showed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyze the Vehicle and Mobile App behavior when processing Lock/Unlock request considering the Doors state + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Open Bonnet and close it + + +Expected Output: +1. Verify Acknowledgement is showed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyze the Vehicle and Mobile App behavior when processing Lock/Unlock request considering the Doors state + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Open Tailgate and close it + + +Expected Output: +1. Verify Acknowledgement is showed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +4) TCU is Awake +5) Keep Driver Door open with all other doors closed. +6) Vehicle is not locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1. Check the Behavior in Mobile App as well as Vehicle + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +4) TCU is Awake +5) Keep front Passenger Door open with all other doors closed. +6) Vehicle is not locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1. Check the Behavior in Mobile App as well as Vehicle + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +4) TCU is Awake +5) Keep Rear Right Door open with all other doors closed. +6) Vehicle is not locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1. Check the Behavior in Mobile App as well as Vehicle + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +4) TCU is Awake +5) Keep Rear Left Door open with all other doors closed. +6) Vehicle is not locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1. Check the Behavior in Mobile App as well as Vehicle + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +4) TCU is Awake +5) Keep Bonnet open with all other doors closed. +6) Vehicle is not locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1. Check the Behavior in Mobile App as well as Vehicle + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +4) TCU is Awake +5) Keep Tailgate open with all other doors closed. +6) Vehicle is not locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1. Check the Behavior in Mobile App as well as Vehicle + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +4) TCU is Awake +5) All Doors are Open +6) Vehicle is not locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1. Check the Behavior in Mobile App as well as Vehicle + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Vehicle lock state = internally locked +3. Perform a Vehicle Unlock Request from App + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is unlocking the vehicle by seeing vehiclelockstate signal in BCM_HU_IC_Trailer message. +III. TCU send vehicle unlock request response as success to Cloud +IV. Verify that TCU export the VehicleUnlockEvent to cloud platform +V. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Vehicle lock state = TCU locked +3. Perform a Vehicle Unlock Request from App + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is unlocking the vehicle by seeing vehiclelockstate signal in BCM_HU_IC_Trailer message. +III. TCU send vehicle unlock request response as success to Cloud +IV. Verify that TCU export the VehicleUnlockEvent to cloud platform +V. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Vehicle lock state = Reverse unlocked +3. Perform a Vehicle lock Request from App + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is locking the vehicle by seeing vehiclelockstate signal in BCM_HU_IC_Trailer message. +III. TCU send vehicle lock request response as success to Cloud +IV. Verify that TCU export the Vehicle lock Event to cloud platform +V. Verify Vehicle lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Vehicle lock state = unlocked +3. Perform a Vehicle lock Request from App + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is locking the vehicle by seeing vehiclelockstate signal in BCM_HU_IC_Trailer message. +III. TCU send vehicle lock request response as success to Cloud +IV. Verify that TCU export the Vehicle lock Event to cloud platform +V. Verify Vehicle lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Vehicle lock state = TCU unlocked +3. Perform a Vehicle lock Request from App + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is locking the vehicle by seeing vehiclelockstate signal in BCM_HU_IC_Trailer message. +III. TCU send vehicle lock request response as success to Cloud +IV. Verify that TCU export the Vehicle lock Event to cloud platform +V. Verify Vehicle lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Vehicle lock state = unlocked +3. any door open +4. Perform a Vehicle lock Request from App + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify that BCM will try locking the vehicle but vehicle will not locked as door is open +III. TCU sends failed response to cloud +IV. Verify Vehicle lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II.Verify BCM is unlocking the vehicle by seeing vehiclelockstate signal in BCM_HU_IC_Trailer message. +III. Verify BCM response Vehicle Lock/Unlock Status to TCU +IV. TCU send vehicle unlock request response as success to Cloud +V. Verify that TCU export the VehicleUnlockEvent to cloud platform +VI. Verify Vehicle Unlock status is updated in the Mobile App +VII. Verify turn indicators flash only one time + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + +Expected Output: + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III.Verify BCM is unlocking the vehicle by seeing vehiclelockstate signal in BCM_HU_IC_Trailer message. +IV. TCU send vehicle unlock request response Success to Cloud +V. Verify that TCU export the VehicleUnlockEvent to cloud platform +VI. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + + +Expected Output: + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III.Verify that vehicle lock state should changed to "TCU unlocked" as vehicle is already unlocked. +IV. TCU send vehicle unlock request response failed to Cloud +V. Verify that TCU export the VehicleUnlockEvent to cloud platform +VI. Verify Vehicle Unlock status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote vehicle unlock request from Cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Locked + +Test Procedure: +1. Vehicle is in Ignition ON +2. Perform a Vehicle Unlock Request from App + +Expected Output: + + +I.TCU shall ignore the command from cloud if Ignition is ON. + Verify RemoteVehicleUnlockCmd is not in the CAN Bus + +II. Verify Vehicle Unlock status is not updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II.Verify BCM that vehicle lock state should changed to "TCU locked" in BCM_HU_IC_Trailer message. +III. TCU send vehicle lock request response as success to Cloud as vehicle is already locked +IV. Verify that TCU export the NO VehiclelockEvent to cloud platform as it is already locked +V. Verify Vehicle lock status is updated in the Mobile App +VI. Verify turn indicators flash only two time + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Lock Request from App + +Expected Output: + +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is locking the vehicle via remote command only by seeing vehicle lock state in BCM_HU_IC_Trailer message. +III. Verify BCM response Vehicle Lock/Unlock Status to TCU +IV. TCU send vehicle lock request response Success to Cloud +V. Verify that TCU export the VehiclelockEvent to cloud platform +VI. Verify Vehicle lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Lock Request from App + +Expected Output: + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III.Verify that vehicle lock state should changed to "TCU locked" as vehicle is already unlocked. +IV. TCU send vehicle lock request response Success to Cloud +V. Verify that TCU export the VehiclelockEvent to cloud platform +VI. Verify Vehicle lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is in Ignition ON +2. Perform a Vehicle Lock Request from App + +Expected Output: + + +I.TCU shall ignore the command from cloud if Ignition is ON. + Verify RemoteVehicleUnlockCmd is not in the CAN Bus + +II. Verify Vehicle Lock status is not updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Lock Request from App + +Expected Output: + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM that vehicle lock state should changed to "TCU locked" in BCM_HU_IC_Trailer message. +III. TCU send vehicle lock request response as success to Cloud as vehicle is already locked +IV. Verify Vehicle lock status is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Any One door Open +2. Perform a Vehicle Lock Request from App + +Expected Output: + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM that vehicle lock state should changed to "TCU locked" and suddenly to "Unlocked" in BCM_HU_IC_Trailer message. +III. TCU send vehicle lock request response as failure to Cloud as vehicle couldn't get locked due to door open condition +IV. Verify Vehicle lock status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle Lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Wait for Auto relock +2. Perform a Vehicle Lock Request from App + +Expected Output: + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM that vehicle lock state should changed to "TCU locked" and suddenly to "Unlocked" in BCM_HU_IC_Trailer message. +III. TCU send vehicle lock request response as failure to Cloud as vehicle couldn't get locked due to door open condition +IV. Verify Vehicle lock status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. +3) Test case for analyzing the time for processing the request and getting the feedback + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + + +Expected Output: +1. Check the time for Unlocking the Vehicle. +2. Check the time for getting Acknowledgement in the Mobile App. + (Repeat the Test procedure 5 times and note the Time taken for processing the request and getting the Acknowledgement) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. +3) Test case for analyzing the time for processing the request and getting the feedback + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Lock Request from App + + +Expected Output: +1. Check the time for Locking the Vehicle. +2. Check the time for getting Acknowledgement in the Mobile App. + (Repeat the Test procedure 5 times and note the Time taken for processing the request and getting the Acknowledgement) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App's behavior if any Network issue between Mobile App and Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud signal strength is Weak +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + +Expected Output: + +1.Check any Notifications is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App's behavior if any Network issue between Mobile App and Cloud + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud signal strength is Weak +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Lock Request from App + + +Expected Output: +1.Check any Notifications is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. +3) Test case for analyzing retry Mechanism if Network is not available + +Pre-condition: +1) TCU with a functioning SIM +2) Vehicle is in No Network Area +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + + +Expected Output: +1. Verify Remote Vehicle Unlock command at the platform is timed out after 1 min +2.Check any Notifications is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. +3) Test case for analyzing retry Mechanism if Network is not available + +Pre-condition: +1) TCU with a functioning SIM +2) Vehicle is in No Network Area +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Lock Request from App + + +Expected Output: +1. Verify Remote Vehicle lock command at the platform is timed out after 1 min +2.Check any Notifications is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud's behavior if any Network issue between Cloud and TCU + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + + +Expected Output: +1.Check any Notifications is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud's behavior if any Network issue between Cloud and TCU + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1.Check any Notifications is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Requesting Vehicle Lock from Mobile App when there is a hardware failure in TCU + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked +6) TCU did not receive SMS and failed to wakeup + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App + + +Expected Output: +1. Verify the behavior in the Vehicle and Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Requesting Vehicle Lock from Mobile App when there is a hardware failure in TCU + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked +6) TCU did not receive SMS and failed to wakeup + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Lock Request from App + + +Expected Output: +1. Verify the behavior in the Vehicle and Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior when processing the Remote Request + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud and Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Close the App + + +Expected Output: +1. Check whether the request is processed or Not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. +3) Test case for analyzing the vehicle behavior when the Network available after requesting to lock the Vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) Vehicle is in No Network Area +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Network available after sometime the vehicle lock request is initiated + + +Expected Output: +1. Check Cloud shall process the request once the Network is available + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. +3) Test case for analyzing the vehicle behavior when the Network available after requesting to Unlock the Vehicle + +Pre-condition: +1) TCU with a functioning SIM +2) Vehicle is in No Network Area +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Unlocked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App +3. Network available after sometime the vehicle unlock request is initiated + + +Expected Output: +1. Check Cloud shall process the request once the Network is available + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the behavior when multiple task is requested by the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Immediately perform a Vehicle Lock request from App again + + +Expected Output: +1. Check the behavior of Vehicle and the Mobile App. +2. After giving the first command app should not allow to give second command untill the first command status is received. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyze the Vehicle and Mobile App behavior when processing Lock/Unlock request considering the Doors state + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Open Driver door and close it + + +Expected Output: +1. Verify Acknowledgement is showed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyze the Vehicle and Mobile App behavior when processing Lock/Unlock request considering the Doors state + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Open Front Passenger door and close it + + +Expected Output: +1. Verify Acknowledgement is showed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyze the Vehicle and Mobile App behavior when processing Lock/Unlock request considering the Doors state + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Open Rear Right Passenger door and close it + + +Expected Output: +1. Verify Acknowledgement is showed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyze the Vehicle and Mobile App behavior when processing Lock/Unlock request considering the Doors state + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Open Rear Left Passenger door and close it + + +Expected Output: +1. Verify Acknowledgement is showed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyze the Vehicle and Mobile App behavior when processing Lock/Unlock request considering the Doors state + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Open Bonnet and close it + + +Expected Output: +1. Verify Acknowledgement is showed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyze the Vehicle and Mobile App behavior when processing Lock/Unlock request considering the Doors state + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +3) TCU is Awake +4) All Doors are closed +5) Vehicle is Locked + + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle Unlock Request from App +3. Open Tailgate and close it + + +Expected Output: +1. Verify Acknowledgement is showed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +4) TCU is Awake +5) Keep Driver Door open with all other doors closed. +6) Vehicle is not locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1. Check the Behavior in Mobile App as well as Vehicle + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +4) TCU is Awake +5) Keep front Passenger Door open with all other doors closed. +6) Vehicle is not locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1. Check the Behavior in Mobile App as well as Vehicle + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +4) TCU is Awake +5) Keep Rear Right Door open with all other doors closed. +6) Vehicle is not locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1. Check the Behavior in Mobile App as well as Vehicle + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +4) TCU is Awake +5) Keep Rear Left Door open with all other doors closed. +6) Vehicle is not locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1. Check the Behavior in Mobile App as well as Vehicle + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +4) TCU is Awake +5) Keep Bonnet open with all other doors closed. +6) Vehicle is not locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1. Check the Behavior in Mobile App as well as Vehicle + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +4) TCU is Awake +5) Keep Tailgate open with all other doors closed. +6) Vehicle is not locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1. Check the Behavior in Mobile App as well as Vehicle + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) Mobile App to Cloud have sufficient signal strength. +3) Cloud to TCU have sufficient signal strength +4) TCU is Awake +5) All Doors are Open +6) Vehicle is not locked + +Test Procedure: +1. Vehicle is OFF +2. Perform a Vehicle lock Request from App + + +Expected Output: +1. Check the Behavior in Mobile App as well as Vehicle + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Vehicle lock state = internally locked +3. Perform a Vehicle Unlock Request from App + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is unlocking the vehicle by seeing vehiclelockstate signal in BCM_HU_IC_Trailer message. +III. TCU send vehicle unlock request response as success to Cloud +IV. Verify that TCU export the VehicleUnlockEvent to cloud platform +V. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle unlock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Vehicle lock state = TCU locked +3. Perform a Vehicle Unlock Request from App + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is unlocking the vehicle by seeing vehiclelockstate signal in BCM_HU_IC_Trailer message. +III. TCU send vehicle unlock request response as success to Cloud +IV. Verify that TCU export the VehicleUnlockEvent to cloud platform +V. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Vehicle lock state = Reverse unlocked +3. Perform a Vehicle lock Request from App + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is locking the vehicle by seeing vehiclelockstate signal in BCM_HU_IC_Trailer message. +III. TCU send vehicle lock request response as success to Cloud +IV. Verify that TCU export the Vehicle lock Event to cloud platform +V. Verify Vehicle lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Vehicle lock state = unlocked +3. Perform a Vehicle lock Request from App + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is locking the vehicle by seeing vehiclelockstate signal in BCM_HU_IC_Trailer message. +III. TCU send vehicle lock request response as success to Cloud +IV. Verify that TCU export the Vehicle lock Event to cloud platform +V. Verify Vehicle lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Vehicle lock state = TCU unlocked +3. Perform a Vehicle lock Request from App + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is locking the vehicle by seeing vehiclelockstate signal in BCM_HU_IC_Trailer message. +III. TCU send vehicle lock request response as success to Cloud +IV. Verify that TCU export the Vehicle lock Event to cloud platform +V. Verify Vehicle lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote vehicle lock request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Vehicle lock state = unlocked +3. any door open +4. Perform a Vehicle lock Request from App + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify that BCM will try locking the vehicle but vehicle will not locked as door is open +III. TCU sends failed response to cloud +IV. Verify Vehicle lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No BrakeFluidAlert is detected + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from IPC + IcHuBrakeFluidLowState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert +II. verify BrakeFluidAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No BrakeFluidAlert is detected. + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from IPC + IcHuBrakeFluidLowState = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert +II. verify BrakeFluidAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for Brake fluid alert, + IcHuBrakeFluidLowState = 1 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from IPC + IcHuBrakeFluidLowState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert +II. verify BrakeFluidAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for Brake fluid alert, + IcHuBrakeFluidLowState = 2 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from IPC + IcHuBrakeFluidLowState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert +II. verify BrakeFluidAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No BrakeFluidAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from IPC + IcHuBrakeFluidLowState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert +II. verify BrakeFluidAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No BrakeFluidAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from IPC + IcHuBrakeFluidLowState = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert +II. verify BrakeFluidAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for Brake fluid alert, + IcHuBrakeFluidLowState = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from IPC + IcHuBrakeFluidLowState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert +II. verify BrakeFluidAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for Brake fluid alert, + IcHuBrakeFluidLowState = 2 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from IPC + IcHuBrakeFluidLowState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert +II. verify BrakeFluidAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No BrakeFluidAlert is detected + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from IPC + IcHuBrakeFluidLowState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert + b. Telemetry Record Element - EngineStartEvent +II. verify BrakeFluidAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No BrakeFluidAlert is detected + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from IPC + IcHuBrakeFluidLowState = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert + b. Telemetry Record Element - EngineStartEvent +II. verify BrakeFluidAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for Brake fluid alert, + IcHuBrakeFluidLowState = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from IPC + IcHuBrakeFluidLowState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert + +II. verify BrakeFluidAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for Brake fluid alert, + IcHuBrakeFluidLowState = 2 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from IPC + IcHuBrakeFluidLowState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert + +II. verify BrakeFluidAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for PEPS Low Battery Alert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for KeyBatteryLowLevelAlert, + LowBatUIdMsg = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from PEPS + LowBatUIdMsg = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for PEPS Low Battery Alert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for KeyBatteryLowLevelAlert, + LowBatUIdMsg = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from PEPS + LowBatUIdMsg = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for PEPS Low Battery Alert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for KeyBatteryLowLevelAlert, + LowBatUIdMsg = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from PEPS + LowBatUIdMsg = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II. verify KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for PEPS Low Battery Alert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for KeyBatteryLowLevelAlert, + LowBatUIdMsg = 1 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from PEPS + LowBatUIdMsg = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + + KeyBatteryLowLevelAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for PEPS Low Battery Alert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for KeyBatteryLowLevelAlert, + LowBatUIdMsg = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from PEPS + LowBatUIdMsg = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + + KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for PEPS Low Battery Alert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for KeyBatteryLowLevelAlert, + LowBatUIdMsg = 1 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from PEPS + LowBatUIdMsg = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + + KeyBatteryLowLevelAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for PEPS Low Battery Alert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for KeyBatteryLowLevelAlert, + LowBatUIdMsg = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from PEPS + LowBatUIdMsg = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + + KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for PEPS Low Battery Alert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for KeyBatteryLowLevelAlert, + LowBatUIdMsg = 1 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from PEPS + LowBatUIdMsg = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + + KeyBatteryLowLevelAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for PEPS Low Battery Alert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for KeyBatteryLowLevelAlert, + LowBatUIdMsg = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from PEPS + LowBatUIdMsg = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + + KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for PEPS Low Battery Alert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for KeyBatteryLowLevelAlert, + LowBatUIdMsg = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from PEPS + LowBatUIdMsg = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + + KeyBatteryLowLevelAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for PEPS Low Battery Alert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for KeyBatteryLowLevelAlert, + LowBatUIdMsg = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from PEPS + LowBatUIdMsg = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + b. Telemetry Record Element - EngineStartEvent + + KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for PEPS Low Battery Alert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for KeyBatteryLowLevelAlert, + LowBatUIdMsg = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from PEPS + LowBatUIdMsg = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + + KeyBatteryLowLevelAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Next service Due Alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for ServiceReminderAlert, + NextServDueAlert = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from IPC + NextServDueAlert = 1 + NextServDueAlertStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + +II. verify the ServiceReminderAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Next service Due Alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for ServiceReminderAlert, + NextServDueAlert = 1 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from IPC + NextServDueAlert = 0 + NextServDueAlertStatus = 2 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + +II. verify the ServiceReminderAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not receive the condition for Next service Due Alert from IPC when status signal is set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for ServiceReminderAlert, + NextServDueAlert = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from IPC NextServDueAlertStatus = 0 + NextServDueAlert = 1 + + + + +Expected Output: + +I. verify the following Alert is not displayed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + +II. verify the ServiceReminderAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Next service Due Alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for ServiceReminderAlert, + NextServDueAlert = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from IPC + NextServDueAlert = 1 + NextServDueAlertStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + +II. verify the ServiceReminderAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Next service Due Alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for ServiceReminderAlert, + NextServDueAlert = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from IPC + NextServDueAlert = 0 + NextServDueAlertStatus = 2 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + +II. verify the ServiceReminderAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not receive the condition for Next service Due Alert from IPC when status signal is set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for ServiceReminderAlert, + NextServDueAlert = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from IPC + NextServDueAlertStatus = 0 + NextServDueAlert = 1 + + +Expected Output: + +I. verify the following Alert is not displayed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + +II. verify the ServiceReminderAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Next service Due Alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for ServiceReminderAlert, + NextServDueAlert = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from IPC + NextServDueAlert = 1 + NextServDueAlertStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + b. Telemetry Record Element - EngineStartEvent +II. verify the ServiceReminderAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Next service Due Alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for ServiceReminderAlert, + NextServDueAlert = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from IPC + NextServDueAlert = 0 + NextServDueAlertStatus = 2 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + +II. verify the ServiceReminderAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not receive the condition for Next service Due Alert from IPC when status signal is set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for ServiceReminderAlert, + NextServDueAlert = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from IPC + NextServDueAlertStatus = 0 + NextServDueAlert = 1 + + +Expected Output: + +I. verify the following Alert is not displayed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + +II. verify the ServiceReminderAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for EPAS status Alert from EPAS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for EPASAlert, + EPAsStatus= 0 + + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from EPAS + EPAsStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - EPASAlert + +II. verify the EPASAlert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for EPAS status Alert from EPAS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for EPASAlert, + EPAsStatus= 2 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from EPAS + EPAsStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - EPASAlert + +II. verify the EPASAlert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for EPAS status Alert from EPAS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for EPASAlert, + EPAsStatus= 0 + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from EPAS + EPAsStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - EPASAlert + +II. verify the EPASAlert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for EPAS status Alert from EPAS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for EPASAlert, + EPAsStatus= 2 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from EPAS + EPAsStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - EPASAlert + +II. verify the EPASAlert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for EPAS status Alert from EPAS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for EPASAlert, + EPAsStatus= 0 + + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from EPAS + EPAsStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - EPASAlert + b. Telemetry Record Element - EngineStartEvent +II. verify the EPASAlert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for EPAS status Alert from EPAS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Condition for EPASAlert, + EPAsStatus= 2 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from EPAS + EPAsStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - EPASAlert + +II. verify the EPASAlert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 2 + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Front Deploy Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 2 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 0 + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Front Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 4 + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Rear Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 4 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 0 + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Rear Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 8 + + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Right Hand Side Deploy Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 8 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 0 + + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Right Hand Side Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 10 + + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Left Hand Side Deploy Crash is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 10 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 0 + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Left Hand Side Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 2 + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Front Deploy Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 2 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 0 + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Front Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 4 + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Rear Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 4 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 0 + + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Rear Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 8 + + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Right Hand Side Deploy Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 8 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 0 + + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Right Hand Side Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 10 + + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Left Hand Side Deploy Crash is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 10 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 0 + + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Left Hand Side Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 2 + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - EngineStartEvent + d. Telemetry Record Element - eCallEvent +II. verify Front Deploy Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 2 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 0 + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Front Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 4 + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - EngineStartEvent + d. Telemetry Record Element - eCallEvent +II. verify Rear Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 4 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 0 + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Rear Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 8 + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - EngineStartEvent + d. Telemetry Record Element - eCallEvent +II. verify Right Hand Side Deploy Crash Alert is displayed in the Mobile App . + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 8 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 0 + + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Right Hand Side Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 10 + + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - EngineStartEvent + d. Telemetry Record Element - eCallEvent +II. verify Left Hand Side Deploy Crash is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 10 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 0 + + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Left Hand Side Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 2 + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Front Deploy Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 2 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 1 + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Front Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 4 + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Rear Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 4 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 1 + + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Rear Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 8 + + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Right Hand Side Deploy Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 8 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 1 + + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Right Hand Side Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 10 + + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Left Hand Side Deploy Crash is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 10 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from SRS + CrashoutputSignal = 1 + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Left Hand Side Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 2 + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Front Deploy Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 2 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 1 + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Front Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 4 + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Rear Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 4 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 1 + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Rear Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 8 + + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Right Hand Side Deploy Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 8 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 1 + + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Right Hand Side Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 10 + + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - eCallEvent +II. verify Left Hand Side Deploy Crash is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 10 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from SRS + CrashoutputSignal = 1 + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Left Hand Side Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 2 + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - EngineStartEvent + d. Telemetry Record Element - eCallEvent +II. verify Front Deploy Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 2 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 1 + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Front Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 4 + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - EngineStartEvent + d. Telemetry Record Element - eCallEvent +II. verify Rear Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 4 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 1 + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Rear Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 8 + + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - EngineStartEvent + d. Telemetry Record Element - eCallEvent +II. verify Right Hand Side Deploy Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 8 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 1 + + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Right Hand Side Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Crash is detected + CrashoutputSignal = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 10 + + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashEvent + b. Telemetry Record Element - CrashAlert + c. Telemetry Record Element - EngineStartEvent + d. Telemetry Record Element - eCallEvent +II. verify Left Hand Side Deploy Crash is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Crash is detected + CrashoutputSignal = 10 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from SRS + CrashoutputSignal = 1 + + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - CrashAlert + +II. verify Left Hand Side Deploy Crash Alert is removed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ABS status Alert from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ABSESPMalfunction Alert, + ABsStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from ABS/ESP + ABsStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ABSESPMalfunction + +II. verify the ABsStatus Alert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ABS status Alert from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ABSESPMalfunction is detected, + ABsStatus = 2 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from ABS/ESP + ABsStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - ABSESPMalfunction + +II. verify the ABsStatus Alert is removed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ABS status Alert from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ABSESPMalfunction Alert, + ABsStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from ABS/ESP + ABsStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ABSESPMalfunction + +II. verify the ABsStatus Alert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ABS status Alert from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ABSESPMalfunction is detected, + ABsStatus = 2 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from ABS/ESP + ABsStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - ABSESPMalfunction + +II. verify the ABsStatus Alert is removed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ABS status Alert from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ABSESPMalfunction Alert, + ABsStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from ABS/ESP + ABsStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ABSESPMalfunction + b. Telemetry Record Element - EngineStartEvent +II. verify the ABsStatus Alert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ABS status Alert from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ABSESPMalfunction is detected, + ABsStatus = 2 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from ABS/ESP + ABsStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - ABSESPMalfunction + +II. verify the ABsStatus Alert is removed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from BCM + IntrusionInfoState = 1 + IntrusionInfoStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. verify the IntrusionAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from BCM + IntrusionInfoState = 0 + IntrusionInfoStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + +II. verify the IntrusionAlert is removed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall not receive the condition for Intrusion Alert from BCM when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from BCM + IntrusionInfoStateStatus = 3 + IntrusionInfoState = 1 + + + + +Expected Output: + +I. verify the following Alert is not displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. verify the IntrusionAlert is not displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from BCM + IntrusionInfoState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. verify the IntrusionAlert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 1 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from BCM + IntrusionInfoState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + +II. verify the IntrusionAlert is removed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall not receive the condition for Intrusion Alert from BCM when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from BCM + IntrusionInfoStateStatus = 3 + IntrusionInfoState = 1 + + +Expected Output: + +I. verify the following Alert is not displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. verify the IntrusionAlert is not displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from BCM + IntrusionInfoState = 1 +3. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. verify the IntrusionAlert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 1 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from BCM + IntrusionInfoState = 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + +II. verify the IntrusionAlert is removed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall not receive the condition for Intrusion Alert from BCM when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from BCM + IntrusionInfoStateStatus = 3 + IntrusionInfoState = 1 + + +Expected Output: + +I. verify the following Alert is not displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. verify the IntrusionAlert is not displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattSoh is detected, + HvBattSoh = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattSoh = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HvBattSoh is detected, + HvBattSoh = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattSoh = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert + +II. verified HVBatteryHealthAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattSoh is detected, + HvBattSoh = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattSoh = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HvBattSoh is detected, + HvBattSoh = 1 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattSoh = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert + +II. verified HVBatteryHealthAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattSoh is detected, + HvBattSoh = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattSoh = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HvBattSoh is detected, + HvBattSoh = 1 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattSoh = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert + +II. verified HVBatteryHealthAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattSoh is detected, + HvBattSoh = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvBattSoh = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HvBattSoh is detected, + HvBattSoh = 1 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvBattSoh = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert + +II. verified HVBatteryHealthAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattSoh is detected, + HvBattSoh = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattSoh = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HvBattSoh is detected, + HvBattSoh = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattSoh = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert + +II. verified HVBatteryHealthAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattSoh is detected, + HvBattSoh = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattSoh = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert + b. Telemetry Record Element - EngineStartEvent +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HvBattSoh is detected, + HvBattSoh = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattSoh = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert + +II. verified HVBatteryHealthAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 1 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) First level Over Voltage Fault is detected + HvBattOverVoltAlert = 1 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 1 + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 2 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Second Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Second Level Over Voltage Fault is detected + HvBattOverVoltAlert = 2 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Second Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 2 + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 3 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Third Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Third level Over Voltage Fault is detected + HvBattOverVoltAlert = 3 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Third Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 3 + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 1 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) First level Over Voltage Fault is detected + HvBattOverVoltAlert = 1 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 1 + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 2 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Second Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Second Level Over Voltage Fault is detected + HvBattOverVoltAlert = 2 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Second Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 2 + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 3 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Third Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Third level Over Voltage Fault is detected + HvBattOverVoltAlert = 3 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Third Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 3 + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 1 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) First level Over Voltage Fault is detected + HvBattOverVoltAlert = 1 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 1 + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 2 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Second Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Second Level Over Voltage Fault is detected + HvBattOverVoltAlert = 2 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Second Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 2 + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 3 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Third Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 3 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Third Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 3 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 1 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) First level Over Voltage Fault is detected + HvBattOverVoltAlert = 1 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 1 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 2 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Second Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Second Level Over Voltage Fault is detected + HvBattOverVoltAlert = 2 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Second Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 2 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 3 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Third Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 3 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Third Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 3 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 1 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) First level Over Voltage Fault is detected + HvBattOverVoltAlert = 1 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 9 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 1 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 2 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Second Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Second Level Over Voltage Fault is detected + HvBattOverVoltAlert = 2 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Second Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 2 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 3 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Third Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 3 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Third Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 3 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 1 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the First Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) First level Over Voltage Fault is detected + HvBattOverVoltAlert = 1 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 1 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 2 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the Second Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Second Level Over Voltage Fault is detected + HvBattOverVoltAlert = 2 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Second Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 2 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 3 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the Third Fault Level HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 3 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the Third Fault Level HVBatteryOverVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that, TCM shall not record and export the condition for HV battery Over voltage alert from VCU when status signal set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Over Voltage Fault is detected + HvBattOverVoltAlert = 0 + HvBattOverVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + HvBattOverVoltAlertStatus = 2 + HvBattOverVoltAlert = 3 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II. verified the First Fault Level HVBatteryOverVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 1 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) First level Under Voltage Fault is detected + HvBattUnderVoltAlert = 1 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 1 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 2 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Second Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Second Level Under Voltage Fault is detected + HvBattUnderVoltAlert = 2 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Second Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 2 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 3 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Third Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 3 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Third Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 3 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 1 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) First level Under Voltage Fault is detected + HvBattUnderVoltAlert = 1 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 1 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 2 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Second Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Second Level Under Voltage Fault is detected + HvBattUnderVoltAlert = 2 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Second Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 2 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 3 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Third Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 3 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Third Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 3 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 1 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) First level Under Voltage Fault is detected + HvBattUnderVoltAlert = 1 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 1 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 2 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Second Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Second Level Under Voltage Fault is detected + HvBattUnderVoltAlert = 2 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Second Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 2 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 3 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Third Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 3 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Third Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 3 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 1 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) First level Under Voltage Fault is detected + HvBattUnderVoltAlert = 1 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 1 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 2 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Second Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Second Level Under Voltage Fault is detected + HvBattUnderVoltAlert = 2 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Second Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 2 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 3 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Third Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 3 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Third Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 3 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 1 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) First level Under Voltage Fault is detected + HvBattUnderVoltAlert = 1 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 1 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 2 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Second Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Second Level Under Voltage Fault is detected + HvBattUnderVoltAlert = 2 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Second Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 2 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 3 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Third Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 3 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Third Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 3 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 1 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the First Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) First level Under Voltage Fault is detected + HvBattUnderVoltAlert = 1 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 1 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 2 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the Second Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Second Level Under Voltage Fault is detected + HvBattUnderVoltAlert = 2 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Second Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 2 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 3 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the Third Fault Level HVBatteryUnderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 3 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is removed in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the Third Fault Level HVBatteryUnderVoltageAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Under voltage alert from VCU when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Under Voltage Fault is detected + HvBattUnderVoltAlert = 0 + HvBattUnderVoltAlertStatus = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderVoltAlertStatus = 2 + HvBattUnderVoltAlert = 3 + + + +Expected Output: + +I. verified the following Alert is not detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II. verified the First Fault Level HVBatteryUnderVoltageAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + BatteryHighTemp = 1 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + BatteryHighTemp = 1 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature High alert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + BatteryHighTempStatus = 2 + BatteryHighTemp = 1 + + +Expected Output: + +I. verified that following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + BatteryHighTemp = 2 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + BatteryHighTemp = 2 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature High alert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + BatteryHighTempStatus = 2 + BatteryHighTemp = 2 + + +Expected Output: + +I. verified that following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + BatteryHighTemp = 1 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + BatteryHighTemp = 1 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature High alert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + BatteryHighTempStatus = 2 + BatteryHighTemp = 1 + + +Expected Output: + +I. verified that following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + BatteryHighTemp = 2 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + BatteryHighTemp = 2 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature High alert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + BatteryHighTempStatus = 2 + BatteryHighTemp = 2 + + +Expected Output: + +I. verified that following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + BatteryHighTemp = 1 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + BatteryHighTemp = 1 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature High alert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + BatteryHighTempStatus = 2 + BatteryHighTemp = 1 + + +Expected Output: + +I. verified that following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + BatteryHighTemp = 2 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + BatteryHighTemp = 2 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature High alert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + BatteryHighTempStatus = 2 + BatteryHighTemp = 2 + + +Expected Output: + +I. verified that following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + BatteryHighTemp = 1 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + BatteryHighTemp = 1 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature High alert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + BatteryHighTempStatus = 2 + BatteryHighTemp = 1 + + +Expected Output: + +I. verified that following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + BatteryHighTemp = 2 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + BatteryHighTemp = 2 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature High alert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + BatteryHighTempStatus = 2 + BatteryHighTemp = 2 + + +Expected Output: + +I. verified that following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + BatteryHighTemp = 1 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + BatteryHighTemp = 1 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature High alert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + BatteryHighTempStatus = 2 + BatteryHighTemp = 1 + + +Expected Output: + +I. verified that following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + BatteryHighTemp = 2 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + BatteryHighTemp = 2 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature High alert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + BatteryHighTempStatus = 2 + BatteryHighTemp = 2 + + +Expected Output: + +I. verified that following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + BatteryHighTemp = 1 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + b. Telemetry Record Element - EngineStartEvent +II. verified HVBatteryTemperatureHighAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + BatteryHighTemp = 1 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature High alert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + BatteryHighTempStatus = 2 + BatteryHighTemp = 1 + + +Expected Output: + +I. verified that following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + BatteryHighTemp = 2 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + b. Telemetry Record Element - EngineStartEvent +II. verified HVBatteryTemperatureHighAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + BatteryHighTemp = 2 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature High alert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature is Normal + BatteryHighTemp = 0 + BatteryHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + BatteryHighTempStatus = 2 + BatteryHighTemp = 2 + + +Expected Output: + +I. verified that following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II. verified HVBatteryTemperatureHighAlert is not displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 1 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 2 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 2 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 3 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 3 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 3 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 4 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 4 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 2 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 2 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 3 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 3 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 3 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 1 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 2 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 2 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 3 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 3 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 3 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 1 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 2 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 2 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 3 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 3 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 3 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 1 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 2 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 2 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 3 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 3 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 9 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 3 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 1 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 2 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 2 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 3 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is detected + HvBattLowTempAlert = 3 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 8 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattUnderTempAlert = 3 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattLowTempAlert = 1 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattLowTempAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + HvBattLowTempAlert = 1 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattLowTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattLowTempAlert = 1 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvBattLowTempAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + HvBattLowTempAlert = 1 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvBattLowTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HvBattUnderTempAlertStatus = 2 + HvBattLowTempAlert = 1 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattLowTempAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + HvBattLowTempAlert = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattLowTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU +HvBattUnderTempAlertStatus = 2 + HvBattLowTempAlert = 1 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattLowTempAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the HVBatteryTemperatureLowAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is detected + HvBattLowTempAlert = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvBattLowTempAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HV battery Temperature Low alert to cloud when status signal is set to implausible. +2) TCM shall receive the condition for + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Low Alert is not detected + HvBattLowTempAlert = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU +HvBattUnderTempAlertStatus = 2 + HvBattLowTempAlert = 1 + + + +Expected Output: + +I. verified the following alert has not displayed in Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II. verified the HVBatteryTemperatureLowAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 0 + + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + LowHVBatteryCharge = 1 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 1 + + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + LowHVBatteryCharge = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 0 + + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + LowHVBatteryCharge = 2 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 2 + + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + LowHVBatteryCharge = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 0 + + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + LowHVBatteryCharge = 1 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 1 + + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + LowHVBatteryCharge = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 0 + + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + LowHVBatteryCharge = 2 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 2 + + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + LowHVBatteryCharge = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 0 + + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + LowHVBatteryCharge = 1 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 1 + + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + LowHVBatteryCharge = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 0 + + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + LowHVBatteryCharge = 2 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 2 + + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + LowHVBatteryCharge = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 0 + + + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + LowHVBatteryCharge = 1 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 1 + + + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + LowHVBatteryCharge = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 0 + + + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + LowHVBatteryCharge = 2 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 2 + + + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + LowHVBatteryCharge = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 0 + + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + LowHVBatteryCharge = 1 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 1 + + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + LowHVBatteryCharge = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 0 + + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + LowHVBatteryCharge = 2 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 2 + + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + LowHVBatteryCharge = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 0 + + + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + LowHVBatteryCharge = 1 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + b. Telemetry Record Element - EngineStartEvent +II. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 1 + + + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + LowHVBatteryCharge = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 0 + + + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + LowHVBatteryCharge = 2 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + b. Telemetry Record Element - EngineStartEvent +II. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Hvbattery Charge Alert is detected + LowHVBatteryCharge = 2 + + + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + LowHVBatteryCharge = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II. verified HVBatteryLowChargeAlert is removed in the Mobile App. + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 3 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 4 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 3 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 4 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingState = 0 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingState = 3 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingState = 4 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingState = 0 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingState = 3 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingState = 4 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingStateStatus = 2 + HvChargingState = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingStateStatus = 3 + HvChargingState = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvChargingStateStatus = 3 + HvChargingState = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 3 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 4 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 3 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 4 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingState = 0 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingState = 3 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingState = 4 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingState = 0 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingState = 3 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingState = 4 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingStateStatus = 2 + HvChargingState = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingStateStatus = 3 + HvChargingState = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingStateStatus = 2 + HvChargingState = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvChargingStateStatus = 3 + HvChargingState = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 3 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 4 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 3 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 4 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingState = 0 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingState = 3 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingState = 4 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingState = 0 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingState = 3 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingState = 4 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingStateStatus = 2 + HvChargingState = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingStateStatus = 3 + HvChargingState = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingStateStatus = 2 + HvChargingState = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvChargingStateStatus = 3 + HvChargingState = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 3 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 4 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 3 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 4 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingState = 0 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingState = 3 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingState = 4 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingState = 0 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingState = 3 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingState = 4 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU HvChargingStateStatus = 2 + HvChargingState = 1 + + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingStateStatus = 3 + HvChargingState = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingStateStatus = 2 + HvChargingState = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HvChargingStateStatus = 3 + HvChargingState = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 3 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 4 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 3 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 4 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingState = 0 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingState = 3 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingState = 4 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingState = 0 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingState = 3 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingState = 4 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingStateStatus = 3 + HvChargingState = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingStateStatus = 2 + HvChargingState = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvChargingStateStatus = 3 + HvChargingState = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent + c. Telemetry Record Element - EngineStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 3 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent + c. Telemetry Record Element - EngineStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 4 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingState = 1 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent + c. Telemetry Record Element - EngineStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent + c. Telemetry Record Element - EngineStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 3 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent + c. Telemetry Record Element - EngineStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 4 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingState = 2 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent + c. Telemetry Record Element - EngineStartEvent +II. verified the HVVehicleChargeStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingState = 0 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingState = 3 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 1 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingState = 4 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingState = 0 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingState = 3 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of HVVehicleChargeStatusAlert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is in Charge + HvChargingState = 2 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingState = 4 + HvChargingStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStopEvent +II. verified the HVVehicleChargeStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingStateStatus = 2 + HvChargingState = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingStateStatus = 3 + HvChargingState = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingStateStatus = 2 + HvChargingState = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of HVVehicleChargeStatusAlert from VCU along with status signal set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Battery is not in Charge + HvChargingState = 0 + HvChargingStateStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HvChargingStateStatus = 3 + HvChargingState = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVVehicleChargeStatusAlert + b. Telemetry Record Element -ChargingStartEvent +II. verified the HVVehicleChargeStatusAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + IntakeChargerHighTemp = 1 + IntakeChargerHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is High + IntakeChargerHighTemp = 1 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for Intake charger high temperature alert to cloud when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + IntakeChargerHighTempStatus = 2 + IntakeChargerHighTemp = 1 + + + +Expected Output: + +I. verified that following alert has not displayed on cloud + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + IntakeChargerHighTemp = 1 + IntakeChargerHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is High + IntakeChargerHighTemp = 1 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for Intake charger high temperature alert to cloud when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + IntakeChargerHighTempStatus = 2 + IntakeChargerHighTemp = 1 + + + +Expected Output: + +I. verified that following alert has not displayed on cloud + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + IntakeChargerHighTemp = 1 + IntakeChargerHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is High + IntakeChargerHighTemp = 1 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for Intake charger high temperature alert to cloud when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + IntakeChargerHighTempStatus = 2 + IntakeChargerHighTemp = 1 + + + +Expected Output: + +I. verified that following alert has not displayed on cloud + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + IntakeChargerHighTemp = 1 + IntakeChargerHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 1 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for Intake charger high temperature alert to cloud when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + IntakeChargerHighTempStatus = 2 + IntakeChargerHighTemp = 1 + + + +Expected Output: + +I. verified that following alert has not displayed on cloud + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + IntakeChargerHighTemp = 1 + IntakeChargerHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 1 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for Intake charger high temperature alert to cloud when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + IntakeChargerHighTempStatus = 2 + IntakeChargerHighTemp = 1 + + + +Expected Output: + +I. verified that following alert has not displayed on cloud + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + IntakeChargerHighTemp = 1 + IntakeChargerHighTempStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the IntakeChargerTemperatureHighAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 1 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for Intake charger high temperature alert to cloud when status signal is set to implausible. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is normal + IntakeChargerHighTemp = 0 + IntakeChargerHighTempStatus = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + IntakeChargerHighTempStatus = 2 + IntakeChargerHighTemp = 1 + + + +Expected Output: + +I. verified that following alert has not displayed on cloud + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + +II. verified the IntakeChargerTemperatureHighAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No VCU malfunction is detected + VcuStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + VCuStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. verified the VCUMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No VCU malfunction is detected + VcuStatus = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + VCuStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. verified the VCUMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No VCU malfunction is detected + VcuStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + VCuStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. verified the VCUMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No VCU malfunction is detected + VcuStatus = 1 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + VCuStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. verified the VCUMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No VCU malfunction is detected + VcuStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Below signals from VCU + VCuStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. verified the VCUMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No VCU malfunction is detected + VcuStatus = 1 + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Below signals from VCU + VCuStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. verified the VCUMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No VCU malfunction is detected + VcuStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + VCuStatus = 1 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. verified the VCUMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No VCU malfunction is detected + VcuStatus = 1 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + VCuStatus = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. verified the VCUMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No VCU malfunction is detected + VcuStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + VCuStatus = 1 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. verified the VCUMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No VCU malfunction is detected + VcuStatus = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + VCuStatus = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. verified the VCUMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No VCU malfunction is detected + VcuStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + VCuStatus = 1 + +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the VCUMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No VCU malfunction is detected + VcuStatus = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + VCuStatus = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. verified the VCUMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No malfunction is detected in DriveMotor + DriveMotorStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + DriveMotorStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II. verified the DriveMotorMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No malfunction is detected in DriveMotor + DriveMotorStatus = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + DriveMotorStatus = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II. verified the DriveMotorMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No malfunction is detected in DriveMotor + DriveMotorStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + DriveMotorStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II. verified the DriveMotorMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No malfunction is detected in DriveMotor + DriveMotorStatus = 1 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + DriveMotorStatus = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II. verified the DriveMotorMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No malfunction is detected in DriveMotor + DriveMotorStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + DriveMotorStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II. verified the DriveMotorMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No malfunction is detected in DriveMotor + DriveMotorStatus = 1 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + DriveMotorStatus = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II. verified the DriveMotorMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No malfunction is detected in DriveMotor + DriveMotorStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + DriveMotorStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II. verified the DriveMotorMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No malfunction is detected in DriveMotor + DriveMotorStatus = 1 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + DriveMotorStatus = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II. verified the DriveMotorMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No malfunction is detected in DriveMotor + DriveMotorStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + DriveMotorStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II. verified the DriveMotorMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No malfunction is detected in DriveMotor + DriveMotorStatus = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + DriveMotorStatus = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II. verified the DriveMotorMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No malfunction is detected in DriveMotor + DriveMotorStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + DriveMotorStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the DriveMotorMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No malfunction is detected in DriveMotor + DriveMotorStatus = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + DriveMotorStatus = 0 + +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II. verified the DriveMotorMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Malfunction is detected in the AC Compressor + AcComprMalFn = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + AcComprMalFn = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - ElectricACCompressorMalfunctionAlert + +II. verified the ElectricACCompressorMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Malfunction is detected in the AC Compressor + AcComprMalFn = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + AcComprMalFn = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ElectricACCompressorMalfunctionAlert + +II. verified the ElectricACCompressorMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Malfunction is detected in the AC Compressor + AcComprMalFn = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + AcComprMalFn = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - ElectricACCompressorMalfunctionAlert + +II. verified the ElectricACCompressorMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Malfunction is detected in the AC Compressor + AcComprMalFn = 1 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + AcComprMalFn = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ElectricACCompressorMalfunctionAlert + +II. verified the ElectricACCompressorMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Malfunction is detected in the AC Compressor + AcComprMalFn = 0 + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Below signals from VCU + AcComprMalFn = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - ElectricACCompressorMalfunctionAlert + +II. verified the ElectricACCompressorMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Malfunction is detected in the AC Compressor + AcComprMalFn = 1 + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Below signals from VCU + AcComprMalFn = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ElectricACCompressorMalfunctionAlert + +II. verified the ElectricACCompressorMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + AcComprMalFn = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - ElectricACCompressorMalfunctionAlert + +II. verified the ElectricACCompressorMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + AcComprMalFn = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ElectricACCompressorMalfunctionAlert + +II. verified the ElectricACCompressorMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + AcComprMalFn = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - ElectricACCompressorMalfunctionAlert + +II. verified the ElectricACCompressorMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + AcComprMalFn = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ElectricACCompressorMalfunctionAlert + +II. verified the ElectricACCompressorMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + AcComprMalFn = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - ElectricACCompressorMalfunctionAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the ElectricACCompressorMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + AcComprMalFn = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ElectricACCompressorMalfunctionAlert + +II. verified the ElectricACCompressorMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HV charger Alert is detected, + HVChargerConnected = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HVChargerConnected = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerConnectedEvent + +II. verified the HvChargerConnectedAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV charger Alert is detected, + HVChargerConnected = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HVChargerConnected = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + b. Telemetry Record Element -ChargerDisconnectedEvent + +II. verified the HvChargerConnectedAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for HvChargerConnectedAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HV charger Alert is detected, + HVChargerConnected = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HVChargerConnectedStatus = 2 + HVChargerConnected = 1 + +Expected Output: + +I. verified that the following details has not displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerConnectedEvent + +II. verified the HvChargerConnectedAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HV charger Alert is detected, + HVChargerConnected = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HVChargerConnected = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerConnectedEvent + +II. verified the HvChargerConnectedAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV charger Alert is detected, + HVChargerConnected = 1 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HVChargerConnected = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + b. Telemetry Record Element -ChargerDisconnectedEvent + +II. verified the HvChargerConnectedAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for HvChargerConnectedAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HV charger Alert is detected, + HVChargerConnected = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HVChargerConnectedStatus = 2 + HVChargerConnected = 1 + +Expected Output: + +I. verified that the following details has not displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerConnectedEvent + +II. verified the HvChargerConnectedAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HV charger Alert is detected, + HVChargerConnected = 0 + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Below signals from VCU + HVChargerConnected = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerConnectedEvent + +II. verified the HvChargerConnectedAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV charger Alert is detected, + HVChargerConnected = 1 + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set the Below signals from VCU + HVChargerConnected = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerDisConnectedEvent + +II. verified the HvChargerConnectedAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for HvChargerConnectedAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HV charger Alert is detected, + HVChargerConnected = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HVChargerConnectedStatus = 2 + HVChargerConnected = 1 + +Expected Output: + +I. verified that the following details has not displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerConnectedEvent + +II. verified the HvChargerConnectedAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HV charger Alert is detected, + HVChargerConnected = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HVChargerConnected = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerConnectedEvent + +II. verified the HvChargerConnectedAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV charger Alert is detected, + HVChargerConnected = 1 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from VCU + HVChargerConnected = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerDisConnectedEvent + +II. verified the HvChargerConnectedAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for HvChargerConnectedAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HV charger Alert is detected, + HVChargerConnected = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + HVChargerConnectedStatus = 2 + HVChargerConnected = 1 + +Expected Output: + +I. verified that the following details has not displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerConnectedEvent + +II. verified the HvChargerConnectedAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HV charger Alert is detected, + HVChargerConnected = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HVChargerConnected = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerConnectedEvent + +II. verified the HvChargerConnectedAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV charger Alert is detected, + HVChargerConnected = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HVChargerConnected = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerDisConnectedEvent + +II. verified the HvChargerConnectedAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for HvChargerConnectedAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HV charger Alert is detected, + HVChargerConnected = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HVChargerConnectedStatus = 2 + HVChargerConnected = 1 + +Expected Output: + +I. verified that the following details has not displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerConnectedEvent + +II. verified the HvChargerConnectedAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HV charger Alert is detected, + HVChargerConnected = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HVChargerConnected = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerConnectedEvent +c. Telemetry Record Element - EngineStartEvent +II. verified the HvChargerConnectedAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV charger Alert is detected, + HVChargerConnected = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from VCU + HVChargerConnected = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerDisConnectedEvent + +II. verified the HvChargerConnectedAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for HvChargerConnectedAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HV charger Alert is detected, + HVChargerConnected = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + HVChargerConnectedStatus = 2 + HVChargerConnected = 1 + +Expected Output: + +I. verified that the following details has not displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert b. Telemetry Record Element - ChargerConnectedEvent + +II. verified the HvChargerConnectedAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftFrontTyrePressureAlert is detected, + HighTirePresAlertFL = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from TPMS + HighTirePresAlertFL = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. verify the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftFrontTyrePressureAlert is detected, + HighTirePresAlertFL = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from TPMS + HighTirePresAlertFL = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. verify the LeftFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftFrontTyrePressureAlert is detected, + LowTirePresAlertFL = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from TPMS + LowTirePresAlertFL = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. verify the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftFrontTyrePressureAlert is detected, + LowTirePresAlertFL = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from TPMS + LowTirePresAlertFL = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. verify the LeftFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftFrontTyrePressureAlert is detected, + HighTirePresAlertFL = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from TPMS + HighTirePresAlertFL = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. verify the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftFrontTyrePressureAlert is detected, + HighTirePresAlertFL = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals fromTPMS + HighTirePresAlertFL = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. verify the LeftFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftFrontTyrePressureAlert is detected, + LowTirePresAlertFL = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from TPMS + LowTirePresAlertFL = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. verify the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftFrontTyrePressureAlert is detected, + LowTirePresAlertFL = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from TPMS + LowTirePresAlertFL = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. verify the LeftFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftFrontTyrePressureAlert is detected, + HighTirePresAlertFL = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from TPMS + HighTirePresAlertFL = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + b. Telemetry Record Element - EngineStartEvent +II. verify the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftFrontTyrePressureAlert is detected, + HighTirePresAlertFL = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from TPMS + HighTirePresAlertFL = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. verify the LeftFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftFrontTyrePressureAlert is detected, + LowTirePresAlertFL = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowTirePresAlertFL = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftFrontTyrePressureAlert is detected, + LowTirePresAlertFL = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowTirePresAlertFL = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. verified the LeftFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftRearTyrePressureAlert is detected, + HighTirePresAlertRL = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HighTirePresAlertRL = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftRearTyrePressureAlert is detected, + HighTirePresAlertRL = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HighTirePresAlertRL = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. verified the LeftRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftRearTyrePressureAlert is detected, + LowTirePresAlertRL = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowTirePresAlertRL = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftRearTyrePressureAlert is detected, + LowTirePresAlertRL = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowTirePresAlertRL = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. verified the LeftRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftRearTyrePressureAlert is detected, + HighTirePresAlertRL = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HighTirePresAlertRL = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftRearTyrePressureAlert is detected, + HighTirePresAlertRL = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HighTirePresAlertRL = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. verified the LeftRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftRearTyrePressureAlert is detected, + LowTirePresAlertRL = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowTirePresAlertRL = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftRearTyrePressureAlert is detected, + LowTirePresAlertRL = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowTirePresAlertRL = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. verified the LeftRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftRearTyrePressureAlert is detected, + HighTirePresAlertRL = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HighTirePresAlertRL = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftRearTyrePressureAlert is detected, + HighTirePresAlertRL = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HighTirePresAlertRL = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. verified the LeftRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftRearTyrePressureAlert is detected, + LowTirePresAlertRL = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowTirePresAlertRL = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LeftRearTyrePressureAlert is detected, + LowTirePresAlertRL = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowTirePresAlertRL = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. verified the LeftRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightFrontTyrePressureAlert is detected, + HighTirePresAlertFR = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HighTirePresAlertFR = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightFrontTyrePressureAlert is detected, + HighTirePresAlertFR = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HighTirePresAlertFR = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. verified the RightFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightFrontTyrePressureAlert is detected, + LowTirePresAlertFR = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowTirePresAlertFR = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightFrontTyrePressureAlert is detected, + LowTirePresAlertFR = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowTirePresAlertFR = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. verified the RightFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightFrontTyrePressureAlert is detected, + HighTirePresAlertFR = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HighTirePresAlertFR = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightFrontTyrePressureAlert is detected, + HighTirePresAlertFR = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HighTirePresAlertFR = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. verified the RightFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightFrontTyrePressureAlert is detected, + LowTirePresAlertFR = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowTirePresAlertFR = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightFrontTyrePressureAlert is detected, + LowTirePresAlertFR = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowTirePresAlertFR = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. verified the RightFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightFrontTyrePressureAlert is detected, + HighTirePresAlertFR = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HighTirePresAlertFR = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightFrontTyrePressureAlert is detected, + HighTirePresAlertFR = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HighTirePresAlertFR = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. verified the RightFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightFrontTyrePressureAlert is detected, + LowTirePresAlertFR = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowTirePresAlertFR = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightFrontTyrePressureAlert is detected, + LowTirePresAlertFR = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowTirePresAlertFR = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. verified the RightFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightRearTyrePressureAlert is detected, + HighTirePresAlertRR = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HighTirePresAlertRR = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II. verified the RightRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightRearTyrePressureAlert is detected, + HighTirePresAlertRR = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HighTirePresAlertRR = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II. verified the RightRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightRearTyrePressureAlert is detected, + LowTirePresAlertRR = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowTirePresAlertRR = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II. verified the RightRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightRearTyrePressureAlert is detected, + LowTirePresAlertRR = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowTirePresAlertRR = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II. verified the RightRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightRearTyrePressureAlert is detected, + HighTirePresAlertRR = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HighTirePresAlertRR = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II. verified the RightRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightRearTyrePressureAlert is detected, + HighTirePresAlertRR = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HighTirePresAlertRR = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II. verified the RightRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightRearTyrePressureAlert is detected, + LowTirePresAlertRR = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowTirePresAlertRR = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II. verified the RightRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightRearTyrePressureAlert is detected, + LowTirePresAlertRR = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowTirePresAlertRR = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II. verified the RightRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightRearTyrePressureAlert is detected, + HighTirePresAlertRR = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HighTirePresAlertRR = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the RightRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightRearTyrePressureAlert is detected, + HighTirePresAlertRR = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HighTirePresAlertRR = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II. verified the RightRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightRearTyrePressureAlert is detected, + LowTirePresAlertRR = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowTirePresAlertRR = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the RightRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RightRearTyrePressureAlert is detected, + LowTirePresAlertRR = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowTirePresAlertRR = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II. verified the RightRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No SpareTyrePressureAlert is detected, + HighTirePresAlertSpare = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HighTirePresAlertSpare = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) SpareTyrePressureAlert is detected, + HighTirePresAlertSpare = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HighTirePresAlertSpare = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. verified the SpareTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No SpareTyrePressureAlert is detected, + LowTirePresAlertSpare = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowTirePresAlertSpare = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) SpareTyrePressureAlert is detected, + LowTirePresAlertSpare = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowTirePresAlertSpare = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. verified the SpareTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No SpareTyrePressureAlert is detected, + HighTirePresAlertSpare = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HighTirePresAlertSpare = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) SpareTyrePressureAlert is detected, + HighTirePresAlertSpare = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HighTirePresAlertSpare = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. verified the SpareTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No SpareTyrePressureAlert is detected, + LowTirePresAlertSpare = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowTirePresAlertSpare = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) SpareTyrePressureAlert is detected, + LowTirePresAlertSpare = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowTirePresAlertSpare = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. verified the SpareTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No SpareTyrePressureAlert is detected, + HighTirePresAlertSpare = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HighTirePresAlertSpare = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) SpareTyrePressureAlert is detected, + HighTirePresAlertSpare = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HighTirePresAlertSpare = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. verified the SpareTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No SpareTyrePressureAlert is detected, + LowTirePresAlertSpare = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowTirePresAlertSpare = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) SpareTyrePressureAlert is detected, + LowTirePresAlertSpare = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowTirePresAlertSpare = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. verified the SpareTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Low fuel Alert is detected, + LowFuelOutputIC = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowFuelOutputIC = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. verified the Low fuel alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Low fuel Alert is detected, + LowFuelOutputIC = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowFuelOutputIC = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. verified the Low fuel alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not receive the condition for Low fuel alert signal from IPC when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Low fuel Alert is detected, + LowFuelOutputIC = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowFuelOutputICStatus = 2 + LowFuelOutputIC = 1 + + + +Expected Output: + +I. verified the following details is not detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. verified the Low fuel alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not receive the condition for Low fuel alert signal from IPC when status signal is set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Low fuel Alert is detected, + LowFuelOutputIC = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowFuelOutputICStatus = 3 + LowFuelOutputIC = 1 + + + +Expected Output: + +I. verified the following details is not detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. verified the Low fuel alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Low fuel Alert is detected, + LowFuelOutputIC = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowFuelOutputIC = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. verified the Low fuel alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Low fuel Alert is detected, + LowFuelOutputIC = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowFuelOutputIC = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. verified the Low fuel alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not receive the condition for Low fuel alert signal from IPC when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Low fuel Alert is detected, + LowFuelOutputIC = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowFuelOutputICStatus = 2 + LowFuelOutputIC = 1 + + + +Expected Output: + +I. verified the following details is not detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. verified the Low fuel alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not receive the condition for Low fuel alert signal from IPC when status signal is set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Low fuel Alert is detected, + LowFuelOutputIC = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowFuelOutputICStatus = 3 + LowFuelOutputIC = 1 + + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. verified the Low fuel alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Low fuel Alert is detected, + LowFuelOutputIC = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowFuelOutputIC = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + b. Telemetry Record Element - EngineStartEvent +II. verified the Low fuel alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Low fuel Alert is detected, + LowFuelOutputIC = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from IPC + LowFuelOutputIC = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. verify the Low fuel alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that,TCM shall not receive the condition for Low fuel alert signal from IPC when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Low fuel Alert is detected, + LowFuelOutputIC = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 6 +2. Set the Below signals from IPC + LowFuelOutputICStatus = 2 + LowFuelOutputIC = 1 + + + +Expected Output: + +I. verify the following details is not detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. verify the Low fuel alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that,TCM shall not receive the condition for Low fuel alert signal from IPC when status signal is set to SNA + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Low fuel Alert is detected, + LowFuelOutputIC = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from IPC + LowFuelOutputICStatus = 3 + LowFuelOutputIC = 1 + + + +Expected Output: + +I. verify the following details is not detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. verify the Low fuel alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Engine malfunction Alert signal from EMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Engine Malfunction Alert is detected, + MiLampState = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from EMS + MiLampState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Engine Malfunction Alert + b. Telemetry Record Element - EngineStartEvent +II. verify the Engine Malfunction Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Engine malfunction Alert signal from EMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Engine Malfunction Alert is detected, + MiLampState = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from EMS + MiLampState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Engine Malfunction Alert + +II. verify the Engine Malfunction Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Engine malfunction Alert signal from EMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Engine Malfunction Alert is detected, + MiLampState = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from EMS + MiLampState = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Engine Malfunction Alert + b. Telemetry Record Element - EngineStartEvent +II. verify the Engine Malfunction Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Engine malfunction Alert signal from EMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Engine Malfunction Alert is detected, + MiLampState = 2 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from EMS + MiLampState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Engine Malfunction Alert + +II. verify the Engine Malfunction Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Engine Oil Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Engine Oil Alert is detected, + IcHuEngineOilPressureLowState = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from IPC + IcHuEngineOilPressureLowState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Engine oil Alert + b. Telemetry Record Element - EngineStartEvent +II. verify the Engine oil Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Engine Oil Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Engine Oil Alert is detected, + IcHuEngineOilPressureLowState = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from IPC + IcHuEngineOilPressureLowState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Engine oil Alert + +II. verify the Engine oil Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Engine Oil Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Engine Oil Alert is detected, + IcHuEngineOilPressureLowState = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from IPC + IcHuEngineOilPressureLowState = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Engine oil Alert + b. Telemetry Record Element - EngineStartEvent +II. verify the Engine oil Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Engine Oil Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Engine Oil Alert is detected, + IcHuEngineOilPressureLowState = 2 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from IPC + IcHuEngineOilPressureLowState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Engine oil Alert + +II. verify the Engine oil Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHHcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HHcStatusAlert is detected, + HHcStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from ABS/ESP + HHcStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - HHcStatusAlert + +II. verify the HHcStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHHcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HHcStatusAlert is detected, + HHcStatus = 2 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from ABS/ESP + HHcStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - HHcStatusAlert + +II. verify the HHcStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHHcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HHcStatusAlert is detected, + HHcStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from ABS/ESP + HHcStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - HHcStatusAlert + +II. verify the HHcStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHHcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HHcStatusAlert is detected, + HHcStatus = 2 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from ABS/ESP + HHcStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - HHcStatusAlert + +II. verify the HHcStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHHcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HHcStatusAlert is detected, + HHcStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from ABS/ESP + HHcStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - HHcStatusAlert + b. Telemetry Record Element - EngineStartEvent +II. verify the HHcStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHHcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HHcStatusAlert is detected, + HHcStatus = 2 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from ABS/ESP + HHcStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - HHcStatusAlert + +II. verify the HHcStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHDcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HDcStatusAlert is detected, + HDcStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from ABS/ESP + HDcStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - HDcStatusAlert + +II. verify the HDcStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHDcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HDcStatusAlert is detected, + HDcStatus = 2 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from ABS/ESP + HDcStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - HDcStatusAlert + +II. verify the HDcStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHDcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HDcStatusAlert is detected, + HDcStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from ABS/ESP + HDcStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - HDcStatusAlert + +II. verify the HDcStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHDcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HDcStatusAlert is detected, + HDcStatus = 2 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from ABS/ESP + HDcStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - HDcStatusAlert + +II. verify the HDcStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHDcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HDcStatusAlert is detected, + HDcStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from ABS/ESP + HDcStatus = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - HDcStatusAlert + b. Telemetry Record Element - EngineStartEvent +II. verify the HDcStatusAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHDcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HDcStatusAlert is detected, + HDcStatus = 2 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from ABS/ESP + HDcStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - HDcStatusAlert + +II. verify the HDcStatusAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Driver SeatBelt Alert is detected, + IcSbrDrvrSeatBeltSwitchStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from IPC + IcSbrDrvrSeatBeltSwitchStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. verify the Driver SeatBelt Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Driver SeatBelt Alert is detected, + IcSbrDrvrSeatBeltSwitchStatus = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from IPC + IcSbrDrvrSeatBeltSwitchStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. verify the Driver SeatBelt Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Driver SeatBelt Alert is detected, + IcSbrDrvrSeatBeltSwitchStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + IcSbrDrvrSeatBeltSwitchStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. verify the Driver SeatBelt Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Driver SeatBelt Alert is detected, + IcSbrDrvrSeatBeltSwitchStatus = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + IcSbrDrvrSeatBeltSwitchStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. verify the Driver SeatBelt Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Driver SeatBelt Alert is detected, + IcSbrDrvrSeatBeltSwitchStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from IPC + IcSbrDrvrSeatBeltSwitchStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + b. Telemetry Record Element - EngineStartEvent +II. verify the Driver SeatBelt Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Driver SeatBelt Alert is detected, + IcSbrDrvrSeatBeltSwitchStatus = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from IPC + IcSbrDrvrSeatBeltSwitchStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. verify the Driver SeatBelt Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No CoDriverSeatbeltAlert is detected, + FrPassSBRIndication = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from SRS + FrPassSBRIndication = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. verify the CoDriverSeatbeltAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) CoDriverSeatbeltAlert is detected, + FrPassSBRIndication = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from SRS + FrPassSBRIndication = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. verify the CoDriverSeatbeltAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No CoDriverSeatbeltAlert is detected, + FrPassSBRIndication = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from SRS + FrPassSBRIndication = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. verify the CoDriverSeatbeltAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) CoDriverSeatbeltAlert is detected, + FrPassSBRIndication = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from SRS + FrPassSBRIndication = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. verify the CoDriverSeatbeltAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No CoDriverSeatbeltAlert is detected, + FrPassSBRIndication = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from SRS + FrPassSBRIndication = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + b. Telemetry Record Element - EngineStartEvent +II. verify the CoDriverSeatbeltAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) CoDriverSeatbeltAlert is detected, + FrPassSBRIndication = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from SRS + FrPassSBRIndication = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. verify the CoDriverSeatbeltAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for AirbagECuMalfunctionAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No AirbagECuMalfunctionAlert is detected, + SRSWarningLamp = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from SRS + SRSWarningLamp = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - AirbagECuMalfunctionAlert + +II. verify the AirbagECuMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for AirbagECuMalfunctionAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) AirbagECuMalfunctionAlert is detected, + SRSWarningLamp = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from SRS + SRSWarningLamp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - AirbagECuMalfunctionAlert + +II. verify the AirbagECuMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for AirbagECuMalfunctionAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No AirbagECuMalfunctionAlert is detected, + SRSWarningLamp = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from SRS + SRSWarningLamp = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - AirbagECuMalfunctionAlert + +II. verify the AirbagECuMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for AirbagECuMalfunctionAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) AirbagECuMalfunctionAlert is detected, + SRSWarningLamp = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from SRS + SRSWarningLamp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - AirbagECuMalfunctionAlert + +II. verify the AirbagECuMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for AirbagECuMalfunctionAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No AirbagECuMalfunctionAlert is detected, + SRSWarningLamp = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from SRS + SRSWarningLamp = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - AirbagECuMalfunctionAlert + b. Telemetry Record Element - EngineStartEvent +II. verify the AirbagECuMalfunctionAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for AirbagECuMalfunctionAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) AirbagECuMalfunctionAlert is detected, + SRSWarningLamp = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from SRS + SRSWarningLamp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - AirbagECuMalfunctionAlert + +II. verify the AirbagECuMalfunctionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from IPC + MotorHighTemp = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Motor High Temperature Alert is detected, + MotorHighTemp = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from IPC + MotorHighTemp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not record and export the condition for Motor High Temperature Alert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from IPC + MotorHighTempStatus = 2 + MotorHighTemp = 1 + + +Expected Output: +I. verify that following details has not displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from IPC + MotorHighTemp = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Motor High Temperature Alert is detected, + MotorHighTemp = 2 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from IPC + MotorHighTemp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not record and export the condition for Motor High Temperature Alert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from IPC + MotorHighTempStatus = 2 + MotorHighTemp = 1 + + +Expected Output: + +I. verify that following details has not displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from IPC + MotorHighTemp = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Motor High Temperature Alert is detected, + MotorHighTemp = 1 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from IPC + MotorHighTemp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not record and export the condition for Motor High Temperature Alert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from IPC + MotorHighTempStatus = 2 + MotorHighTemp = 1 + + +Expected Output: +I. verify that following details has not displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from IPC + MotorHighTemp = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Motor High Temperature Alert is detected, + MotorHighTemp = 2 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from IPC + MotorHighTemp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not record and export the condition for Motor High Temperature Alert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from IPC + MotorHighTempStatus = 2 + MotorHighTemp = 1 + + +Expected Output: +I. verify that following details has not displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from IPC + MotorHighTemp = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Motor High Temperature Alert is detected, + MotorHighTemp = 1 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from IPC + MotorHighTemp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not record and export the condition for Motor High Temperature Alert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from IPC + MotorHighTempStatus = 2 + MotorHighTemp = 1 + + +Expected Output: + +I. verify that following details has not displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from IPC + MotorHighTemp = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Motor High Temperature Alert is detected, + MotorHighTemp = 2 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from IPC + MotorHighTemp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not record and export the condition for Motor High Temperature Alert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from IPC + MotorHighTempStatus = 2 + MotorHighTemp = 1 + + +Expected Output: +I. verify that following details has not displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert +II. verify the Motor High Temperature Alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from IPC + MotorHighTemp = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Motor High Temperature Alert is detected, + MotorHighTemp = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from IPC + MotorHighTemp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not record and export the condition for Motor High Temperature Alert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from IPC + MotorHighTempStatus = 2 + MotorHighTemp = 1 + + +Expected Output: + +I. verify that following details has not displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from IPC + MotorHighTemp = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Motor High Temperature Alert is detected, + MotorHighTemp = 2 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from IPC + MotorHighTemp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not record and export the condition for Motor High Temperature Alert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from IPC MotorHighTempStatus = 2 + MotorHighTemp = 2 + + + +Expected Output: + +I. verify that following details has not displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + MotorHighTemp = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Motor High Temperature Alert is detected, + MotorHighTemp = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + MotorHighTemp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not record and export the condition for Motor High Temperature Alert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + MotorHighTempStatus = 2 + MotorHighTemp = 1 + + +Expected Output: + +I. verify that following details has not displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + MotorHighTemp = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Motor High Temperature Alert is detected, + MotorHighTemp = 2 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + MotorHighTemp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not record and export the condition for Motor High Temperature Alert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + MotorHighTempStatus = 2 + MotorHighTemp = 1 + + +Expected Output: + +I. verify that following details has not displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from IPC + MotorHighTemp = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert b. Telemetry Record Element - EngineStartEvent + +II. verify the Motor High Temperature Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Motor High Temperature Alert is detected, + MotorHighTemp = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from IPC + MotorHighTemp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not record and export the condition for Motor High Temperature Alert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from IPC + MotorHighTempStatus = 2 + MotorHighTemp = 1 + + +Expected Output: + +I. verify that following details has not displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from IPC + MotorHighTemp = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert b. Telemetry Record Element - EngineStartEvent + +II. verify the Motor High Temperature Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Motor High Temperature Alert is detected, + MotorHighTemp = 2 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from IPC + MotorHighTemp = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verify that, TCM shall not record and export the condition for Motor High Temperature Alert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Motor High Temperature Alert is detected, + MotorHighTemp = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from IPC + MotorHighTempStatus = 2 + MotorHighTemp = 1 + + +Expected Output: + +I. verify that following details has not displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II. verify the Motor High Temperature Alert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ForcePanicAlert signal from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No ForcePanicAlert is detected, + ForcePanicStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from BCM + ForcePanicStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - ForcePanicAlert + b. Telemetry Record Element - PanicSOSEvent +II. verify the ForcePanicAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ForcePanicAlert signal from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ForcePanicAlert is detected, + ForcePanicStatus = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from BCM + ForcePanicStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - ForcePanicAlert + +II. verify the ForcePanicAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ForcePanicAlert signal from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No ForcePanicAlert is detected, + ForcePanicStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from BCM + ForcePanicStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - ForcePanicAlert + b. Telemetry Record Element - PanicSOSEvent +II. verify the ForcePanicAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ForcePanicAlert signal from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ForcePanicAlert is detected, + ForcePanicStatus = 1 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from BCM + ForcePanicStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - ForcePanicAlert + +II. verify the ForcePanicAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TransServiceIndication = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from AMT/AMTCM/AT + TransServiceIndication = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TransServiceIndicationDCT = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from AMT/AMTCM/AT + TransServiceIndicationDCT = 1 +3. Check whether Normal Alert is detected in Cloud + +Expected Output: +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TransServiceIndicationDCT = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from AMT/AMTCM/AT + TransServiceIndicationDCT = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TCUFault = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from AMT/AMTCM/AT + TCUFault = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TCUFault = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from AMT/AMTCM/AT + TCUFault = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TransServiceIndication = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from AMT/AMTCM/AT/DCT + TransServiceIndication = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TransServiceIndicationDCT = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from AMT/AMTCM/AT/DCT + TransServiceIndicationDCT = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TransServiceIndicationDCT = 2 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from AMT/AMTCM/AT/DCT + TransServiceIndicationDCT = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TCUFault = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from AMT/AMTCM/AT/DCT + TCUFault = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TCUFault = 2 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from AMT/AMTCM/AT/DCT + TCUFault = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TransServiceIndication = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from AMT/AMTCM/AT + TransServiceIndication = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TransServiceIndicationDCT = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from AMT/AMTCM/AT + TransServiceIndicationDCT = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TransServiceIndicationDCT = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from AMT/AMTCM/AT + TransServiceIndicationDCT = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TCUFault = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from AMT/AMTCM/AT + TCUFault = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TCUFault = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from AMT/AMTCM/AT + TCUFault = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TransServiceIndication = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from AMT/AMTCM/AT/DCT + TransServiceIndication = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TransServiceIndicationDCT = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from AMT/AMTCM/AT/DCT + TransServiceIndicationDCT = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TransServiceIndicationDCT = 2 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from AMT/AMTCM/AT/DCT + TransServiceIndicationDCT = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TCUFault = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from AMT/AMTCM/AT/DCT + TCUFault = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TCUFault = 2 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from AMT/AMTCM/AT/DCT + TCUFault = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TransServiceIndication = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from AMT/AMTCM/AT + TransServiceIndication = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + b. Telemetry Record Element - EngineStartEvent +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TransServiceIndicationDCT = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from AMT/AMTCM/AT + TransServiceIndicationDCT = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + b. Telemetry Record Element - EngineStartEvent +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TransServiceIndicationDCT = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from AMT/AMTCM/AT + TransServiceIndicationDCT = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + b. Telemetry Record Element - EngineStartEvent +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TCUFault = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from AMT/AMTCM/AT + TCUFault = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + b. Telemetry Record Element - EngineStartEvent +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No TransmissionFaultAlert is detected, + TCUFault = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from AMT/AMTCM/AT + TCUFault = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + b. Telemetry Record Element - EngineStartEvent +II. verify the TransmissionFaultAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TransServiceIndication = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from AMT/AMTCM + TransServiceIndication = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TransServiceIndicationDCT = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from AMT/AMTCM + TransServiceIndicationDCT = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TransServiceIndicationDCT = 2 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from AMT/AMTCM + TransServiceIndicationDCT = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TCUFault = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from AMT/AMTCM + TCUFault = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/AMTCM/AT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TransmissionFaultAlert is detected, + TCUFault = 2 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from AMT/AMTCM + TCUFault = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II. verify the TransmissionFaultAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ParkBrakeAlert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No ParkBrakeAlert is detected, + ParkBrkState = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from IPC + ParkBrkState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - ParkBrakeAlert + +II. verify the ParkBrakeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ParkBrakeAlert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ParkBrakeAlert is detected, + ParkBrkState = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from IPC + ParkBrkState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeAlert + +II. verify the ParkBrakeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ParkBrakeAlert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No ParkBrakeAlert is detected, + ParkBrkState = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + ParkBrkState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - ParkBrakeAlert + +II. verify the ParkBrakeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ParkBrakeAlert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ParkBrakeAlert is detected, + ParkBrkState = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + ParkBrkState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeAlert + +II. verify the ParkBrakeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ParkBrakeAlert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No ParkBrakeAlert is detected, + ParkBrkState = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from IPC + ParkBrkState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following details is detected in the Cloud: + a. Telemetry Record Element - ParkBrakeAlert + b. Telemetry Record Element - EngineStartEvent +II. verify the ParkBrakeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ParkBrakeAlert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ParkBrakeAlert is detected, + ParkBrkState = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from IPC + ParkBrkState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeAlert + +II. verify the ParkBrakeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattFullChargeAlert is detected, + HvBattFullCharge = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from VCU + HvBattFullCharge = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HvBattFullChargeAlert is detected, + HvBattFullCharge = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from VCU + HvBattFullCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record the condition for HvBattFullChargeAlert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattFullChargeAlert is detected, + HvBattFullCharge = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from VCU + HvBattFullChargeStatus = 2 + HvBattFullCharge = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattFullChargeAlert is detected, + HvBattFullCharge = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + HvBattFullCharge = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HvBattFullChargeAlert is detected, + HvBattFullCharge = 1 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + HvBattFullCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record the condition for HvBattFullChargeAlert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattFullChargeAlert is detected, + HvBattFullCharge = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + HvBattFullChargeStatus = 2 + HvBattFullCharge = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattFullChargeAlert is detected, + HvBattFullCharge = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + HvBattFullCharge = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HvBattFullChargeAlert is detected, + HvBattFullCharge = 1 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + HvBattFullCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record the condition for HvBattFullChargeAlert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattFullChargeAlert is detected, + HvBattFullCharge = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + HvBattFullChargeStatus = 2 + HvBattFullCharge = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattFullChargeAlert is detected, + HvBattFullCharge = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HvBattFullCharge = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HvBattFullChargeAlert is detected, + HvBattFullCharge = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HvBattFullCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record the condition for HvBattFullChargeAlert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattFullChargeAlert is detected, + HvBattFullCharge = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HvBattFullChargeStatus = 2 + HvBattFullCharge = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattFullChargeAlert is detected, + HvBattFullCharge = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HvBattFullCharge = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HvBattFullChargeAlert is detected, + HvBattFullCharge = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HvBattFullCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record the condition for HvBattFullChargeAlert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattFullChargeAlert is detected, + HvBattFullCharge = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HvBattFullChargeStatus = 2 + HvBattFullCharge = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattFullChargeAlert is detected, + HvBattFullCharge = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HvBattFullCharge = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the HvBattFullChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HvBattFullChargeAlert is detected, + HvBattFullCharge = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HvBattFullCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HvBattFullChargeAlert to cloud when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HvBattFullChargeAlert is detected, + HvBattFullCharge = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HvBattFullChargeStatus = 2 + HvBattFullCharge = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II. verified the HvBattFullChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from VCU + HVCriticalAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is detected, + HVCriticalAlert = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from VCU + HVCriticalAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HVCriticalAlert to cloud when status signal is set to implausible + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from VCU + HVCriticalAlertStatus = 2 + HVCriticalAlert = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from VCU + HVCriticalAlert = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is detected, + HVCriticalAlert = 2 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from VCU + HVCriticalAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HVCriticalAlert to cloud when status signal is set to implausible + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from VCU + HVCriticalAlertStatus = 2 + HVCriticalAlert = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + HVCriticalAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is detected, + HVCriticalAlert = 1 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + HVCriticalAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HVCriticalAlert to cloud when status signal is set to implausible + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + HVCriticalAlertStatus = 2 + HVCriticalAlert = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + HVCriticalAlert = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is detected, + HVCriticalAlert = 2 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + HVCriticalAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HVCriticalAlert to cloud when status signal is set to implausible + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + HVCriticalAlertStatus = 2 + HVCriticalAlert = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + HVCriticalAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is detected, + HVCriticalAlert = 1 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + HVCriticalAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HVCriticalAlert to cloud when status signal is set to implausible + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + HVCriticalAlertStatus = 2 + HVCriticalAlert = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + HVCriticalAlert = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is detected, + HVCriticalAlert = 2 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + HVCriticalAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HVCriticalAlert to cloud when status signal is set to implausible + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + HVCriticalAlertStatus = 2 + HVCriticalAlert = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HVCriticalAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is detected, + HVCriticalAlert = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HVCriticalAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HVCriticalAlert to cloud when status signal is set to implausible + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HVCriticalAlertStatus = 2 + HVCriticalAlert = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HVCriticalAlert = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is detected, + HVCriticalAlert = 2 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HVCriticalAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HVCriticalAlert to cloud when status signal is set to implausible + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + HVCriticalAlertStatus = 2 + HVCriticalAlert = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HVCriticalAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is detected, + HVCriticalAlert = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HVCriticalAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HVCriticalAlert to cloud when status signal is set to implausible + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HVCriticalAlertStatus = 2 + HVCriticalAlert = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HVCriticalAlert = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is detected, + HVCriticalAlert = 2 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HVCriticalAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HVCriticalAlert to cloud when status signal is set to implausible + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + HVCriticalAlertStatus = 2 + HVCriticalAlert = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HVCriticalAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the HVCriticalAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is detected, + HVCriticalAlert = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HVCriticalAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HVCriticalAlert to cloud when status signal is set to implausible + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HVCriticalAlertStatus = 2 + HVCriticalAlert = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HVCriticalAlert = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the HVCriticalAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is detected, + HVCriticalAlert = 2 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HVCriticalAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) To verified that,TCM shall not record and export the condition for HVCriticalAlert to cloud when status signal is set to implausible + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No HVCriticalAlert is detected, + HVCriticalAlert = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + HVCriticalAlertStatus = 2 + HVCriticalAlert = 1 + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II. verified the HVCriticalAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + LowLVBatteryCharge = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 1 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + LowLVBatteryCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for LowLVBatteryChargeAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + LowLVBatteryChargeStatus = 2 + LowLVBatteryCharge = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + LowLVBatteryCharge = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 2 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + LowLVBatteryCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for LowLVBatteryChargeAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Set the Below signals from VCU + LowLVBatteryChargeStatus = 2 + LowLVBatteryCharge = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + LowLVBatteryCharge = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 1 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + LowLVBatteryCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for LowLVBatteryChargeAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + LowLVBatteryChargeStatus = 2 + LowLVBatteryCharge = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + LowLVBatteryCharge = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 2 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + LowLVBatteryCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for LowLVBatteryChargeAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Set the Below signals from VCU + LowLVBatteryChargeStatus = 2 + LowLVBatteryCharge = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowLVBatteryCharge = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowLVBatteryCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for LowLVBatteryChargeAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowLVBatteryChargeStatus = 2 + LowLVBatteryCharge = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowLVBatteryCharge = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 2 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowLVBatteryCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for LowLVBatteryChargeAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from VCU + LowLVBatteryChargeStatus = 2 + LowLVBatteryCharge = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowLVBatteryCharge = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowLVBatteryCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for LowLVBatteryChargeAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowLVBatteryChargeStatus = 2 + LowLVBatteryCharge = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowLVBatteryCharge = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 2 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowLVBatteryCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for LowLVBatteryChargeAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowLVBatteryChargeStatus = 2 + LowLVBatteryCharge = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowLVBatteryCharge = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the LowLVBatteryChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowLVBatteryCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for LowLVBatteryChargeAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowLVBatteryChargeStatus = 2 + LowLVBatteryCharge = 1 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowLVBatteryCharge = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + b. Telemetry Record Element - EngineStartEvent +II. verified the LowLVBatteryChargeAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowLVBatteryChargeAlert is detected, + LowLVBatteryCharge = 2 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowLVBatteryCharge = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2)To verified that, TCM shall not record and export the condition for LowLVBatteryChargeAlert to cloud when status signal is set to implausible. + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Set the Below signals from VCU + LowLVBatteryChargeStatus = 2 + LowLVBatteryCharge = 2 + + + +Expected Output: + +I. verified that following details has not displayed in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II. verified the LowLVBatteryChargeAlert is not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No WaterInFuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Set the Below signals from EMS + WIfLampState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert +II. verify WaterInFuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No WaterInFuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Set the Below signals from EMS + WIfLampState = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert +II. verify WaterInFuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No WaterInFuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from EMS + WIfLampState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert + b. Telemetry Record Element - EngineStartEvent +II. verify WaterInFuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No WaterInFuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from EMS + WIfLampState = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert + b. Telemetry Record Element - EngineStartEvent +II. verify WaterInFuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No WaterInFuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from EMS + WIfLampState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert +II. verify WaterInFuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No WaterInFuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from EMS + WIfLampState = 2 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert +II. verify WaterInFuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) WaterInFuelAlert is detected/Active +i.e. Condition for water in fuel alert, + WIfLampState = 1 + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Set the Below signals from EMS + WIfLampState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert +II. verify WaterInFuelAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) WaterInFuelAlert is detected/Active +i.e. Condition for water in fuel alert, + WIfLampState = 2 + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Set the Below signals from EMS + WIfLampState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert +II. verify WaterInFuelAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) WaterInFuelAlert is detected/Active +i.e. Condition for water in fuel alert, + WIfLampState = 1 + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from EMS + WIfLampState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert +II. verify WaterInFuelAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) WaterInFuelAlert is detected/Active +i.e. Condition for water in fuel alert, + WIfLampState = 2 + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from EMS + WIfLampState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert +II. verify WaterInFuelAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) WaterInFuelAlert is detected/Active +i.e. Condition for water in fuel alert, + WIfLampState = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from EMS + WIfLampState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert +II. verify WaterInFuelAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) WaterInFuelAlert is detected/Active +i.e. Condition for water in fuel alert, + WIfLampState = 2 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from EMS + WIfLampState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert +II. verify WaterInFuelAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + BrkVacPumpStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert +II. verified BrkVacPumpMalAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) BrkVacPumpMalAlert is detected/Active +i.e. Condition for BrkVacPumpMalAlert, + BrkVacPumpStatus = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + BrkVacPumpStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert +II. verified BrkVacPumpMalAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + BrkVacPumpStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert +II. verified BrkVacPumpMalAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) BrkVacPumpMalAlert is detected/Active +i.e. Condition for BrkVacPumpMalAlert, + BrkVacPumpStatus = 1 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + BrkVacPumpStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert +II. verified BrkVacPumpMalAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + BrkVacPumpStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert +II. verified BrkVacPumpMalAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) BrkVacPumpMalAlert is detected/Active +i.e. Condition for BrkVacPumpMalAlert, + BrkVacPumpStatus = 1 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + BrkVacPumpStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert +II. verify BrkVacPumpMalAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Active(Ignition ON) + Powermode state = 6 +2. Set the Below signals from VCU + BrkVacPumpStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert +II. verified BrkVacPumpMalAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) BrkVacPumpMalAlert is detected/Active +i.e. Condition for BrkVacPumpMalAlert, + BrkVacPumpStatus = 1 + +Test Procedure: +1. Set the Power Mode as Active(Ignition ON) + Powermode state = 6 +2. Set the Below signals from VCU + BrkVacPumpStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert +II. verified BrkVacPumpMalAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Engine Run + Powermode state = 8 +2. Set the Below signals from VCU + BrkVacPumpStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + b. Telemetry Record Element - EngineStartEvent +II. verified BrkVacPumpMalAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) BrkVacPumpMalAlert is detected/Active +i.e. Condition for BrkVacPumpMalAlert, + BrkVacPumpStatus = 1 + +Test Procedure: +1. Set the Power Mode as Engine Run + Powermode state = 8 +2. Set the Below signals from VCU + BrkVacPumpStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert +II. verified BrkVacPumpMalAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + BrkVacPumpStatus = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert +II. verified BrkVacPumpMalAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) BrkVacPumpMalAlert is detected/Active +i.e. Condition for BrkVacPumpMalAlert, + BrkVacPumpStatus = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + BrkVacPumpStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert +II. verified BrkVacPumpMalAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from ABS/ESP + ESpActive = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert +II. verify ESpActiveAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of ESpActiveAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ESpActiveAlert is detected/Active +i.e. Condition for ESpActiveAlert, + ESpActive = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + ESpActive = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - ESpActive +II. verified ESpActive is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from ABS/ESP + ESpActive = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert +II. verify ESpActiveAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of ESpActiveAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ESpActiveAlert is detected/Active +i.e. Condition for ESpActiveAlert, + ESpActive = 1 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + ESpActive = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - ESpActive +II. verified ESpActive is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from ABS/ESP + ESpActive = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert +II. verify ESpActiveAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of ESpActiveAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ESpActiveAlert is detected/Active +i.e. Condition for ESpActiveAlert, + ESpActive = 1 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + ESpActive = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - ESpActive +II. verified ESpActive is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Active(Ignition ON) + Powermode state = 6 +2. Set the Below signals from ABS/ESP + ESpActive = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert +II. verify ESpActiveAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of ESpActiveAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ESpActiveAlert is detected/Active +i.e. Condition for ESpActiveAlert, + ESpActive = 1 + +Test Procedure: +1. Set the Power Mode as Active(Ignition ON) + Powermode state = 6 +2. Set the Below signals from VCU + ESpActive = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - ESpActive +II. verified ESpActive is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Engine Run + Powermode state = 8 +2. Set the Below signals from ABS/ESP + ESpActive = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + b. Telemetry Record Element - EngineStartEvent +II. verify ESpActiveAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of ESpActiveAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ESpActiveAlert is detected/Active +i.e. Condition for ESpActiveAlert, + ESpActive = 1 + +Test Procedure: +1. Set the Power Mode as Engine Run + Powermode state = 8 +2. Set the Below signals from VCU + ESpActive = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - ESpActive +II. verified ESpActive is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from ABS/ESP + ESpActive = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert +II. verify ESpActiveAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of ESpActiveAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ESpActiveAlert is detected/Active +i.e. Condition for ESpActiveAlert, + ESpActive = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + ESpActive = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - ESpActive +II. verified ESpActive is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ParkBrakeDisengagedAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ParkBrakeDisengagedAlert is detected + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + ParkBrkDisengaged = 1 + ParkBrkDisengagedStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of ParkBrakeDisengagedAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ParkBrakeDisengagedAlert is detected/Active +i.e. Condition for ParkBrakeDisengagedAlert, + ParkBrkDisengaged = 1 + ParkBrkDisengagedStatus = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + ParkBrkDisengaged = 0 + ParkBrkDisengagedStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ParkBrakeDisengagedAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ParkBrakeDisengagedAlert is detected + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + ParkBrkDisengagedStatus = 2 + ParkBrkDisengaged = 1 + + + +Expected Output: + +I. verified that following Alert details has not displayed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is not displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ParkBrakeDisengagedAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ParkBrakeDisengagedAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + ParkBrkDisengaged = 1 + ParkBrkDisengagedStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of ParkBrakeDisengagedAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ParkBrakeDisengagedAlert is detected/Active +i.e. Condition for ParkBrakeDisengagedAlert, + ParkBrkDisengaged = 1 + ParkBrkDisengagedStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + ParkBrkDisengaged = 0 + ParkBrkDisengagedStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ParkBrakeDisengagedAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ParkBrakeDisengagedAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + ParkBrkDisengagedStatus = 2 + ParkBrkDisengaged = 1 + + + +Expected Output: + +I. verified that following Alert details has not displayed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is not displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ParkBrakeDisengagedAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ParkBrakeDisengagedAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + ParkBrkDisengaged = 1 + ParkBrkDisengagedStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verify ParkBrakeDisengagedAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of ParkBrakeDisengagedAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ParkBrakeDisengagedAlert is detected/Active +i.e. Condition for ParkBrakeDisengagedAlert, + ParkBrkDisengaged = 1 + ParkBrkDisengagedStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + ParkBrkDisengaged = 0 + ParkBrkDisengagedStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verify ParkBrakeDisengagedAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ParkBrakeDisengagedAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ParkBrakeDisengagedAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + ParkBrkDisengagedStatus = 2 + ParkBrkDisengaged = 1 + + + +Expected Output: + +I. verify that following Alert details has not displayed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verify ParkBrakeDisengagedAlert is not displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ParkBrakeDisengagedAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ParkBrakeDisengagedAlert is detected + +Test Procedure: +1. Set the Power Mode as Active (Ignition ON) + Powermode state = 6 +2. Set the Below signals from VCU + ParkBrkDisengaged = 1 + ParkBrkDisengagedStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verify ParkBrakeDisengagedAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of ParkBrakeDisengagedAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ParkBrakeDisengagedAlert is detected/Active +i.e. Condition for ParkBrakeDisengagedAlert, + ParkBrkDisengaged = 1 + ParkBrkDisengagedStatus = 0 + +Test Procedure: +1. Set the Power Mode as Active(Ignition ON) + Powermode state = 6 +2. Set the Below signals from VCU + ParkBrkDisengaged = 0 + ParkBrkDisengagedStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ParkBrakeDisengagedAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ParkBrakeDisengagedAlert is detected + +Test Procedure: +1. Set the Power Mode as Active(Ignition ON) + Powermode state = 6 +2. Set the Below signals from VCU + ParkBrkDisengagedStatus = 2 + ParkBrkDisengaged = 1 + + + +Expected Output: + +I. verified that following Alert details has not displayed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is not displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ParkBrakeDisengagedAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ParkBrakeDisengagedAlert is detected + +Test Procedure: +1. Set the Power Mode as Engine Run + Powermode state = 8 +2. Set the Below signals from VCU + ParkBrkDisengaged = 1 + ParkBrkDisengagedStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert + b. Telemetry Record Element - EngineStartEvent +II. verified ParkBrakeDisengagedAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of ParkBrakeDisengagedAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ParkBrakeDisengagedAlert is detected/Active +i.e. Condition for ParkBrakeDisengagedAlert, + ParkBrkDisengaged = 1 + ParkBrkDisengagedStatus = 0 + +Test Procedure: +1. Set the Power Mode as Engine Run + Powermode state = 8 +2. Set the Below signals from VCU + ParkBrkDisengaged = 0 + ParkBrkDisengagedStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ParkBrakeDisengagedAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ParkBrakeDisengagedAlert is detected + +Test Procedure: +1. Set the Power Mode as Engine Run + Powermode state = 8 +2. Set the Below signals from VCU + ParkBrkDisengagedStatus = 2 + ParkBrkDisengaged = 1 + + + +Expected Output: + +I. verified that following Alert details has not displayed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is not displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ParkBrakeDisengagedAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ParkBrakeDisengagedAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + ParkBrkDisengaged = 1 + ParkBrkDisengagedStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of ParkBrakeDisengagedAlert from ABS/ESP + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ParkBrakeDisengagedAlert is detected/Active +i.e. Condition for ParkBrakeDisengagedAlert, + ParkBrkDisengaged = 1 + ParkBrkDisengagedStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + ParkBrkDisengaged = 0 + ParkBrkDisengagedStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ParkBrakeDisengagedAlert from VCU along with status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No ParkBrakeDisengagedAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + ParkBrkDisengagedStatus = 2 + ParkBrkDisengaged = 1 + + + +Expected Output: + +I. verified that following Alert details has not displayed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is not displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of RefuelAlert from IPC + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No RefuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Active(Ignition ON) + Powermode state = 6 +2. Set the Below signals from IPC + RefuelAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - RefuelAlert +II. verify RefuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of RefuelAlert from IPC + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No RefuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Engine Run + Powermode state = 8 +2. Set the Below signals from IPC + RefuelAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - RefuelAlert + b. Telemetry Record Element - EngineStartEvent +II. verify RefuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of RefuelAlert from IPC + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No RefuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from IPC + RefuelAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. verify the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - RefuelAlert +II. verify RefuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of RefuelAlert from IPC + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ESpActiveAlert is detected/Active +i.e. Condition for RefuelAlert, + RefuelAlert = 1 + +Test Procedure: +1. Set the Power Mode as Active(Ignition ON) + Powermode state = 6 +2. Set the Below signals from IPC + RefuelAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - RefuelAlert +II. verify RefuelAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of RefuelAlert from IPC + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ESpActiveAlert is detected/Active +i.e. Condition for RefuelAlert, + RefuelAlert = 1 + +Test Procedure: +1. Set the Power Mode as Engine Run + Powermode state = 8 +2. Set the Below signals from IPC + RefuelAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - RefuelAlert +II. verify RefuelAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert removal condition of RefuelAlert from IPC + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) ESpActiveAlert is detected/Active +i.e. Condition for RefuelAlert, + RefuelAlert = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from IPC + RefuelAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. verify the following Alert details is removed in the Cloud: + a. Telemetry Record Element - RefuelAlert +II. verify RefuelAlert is removed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Power mode is Engine Run(i.e. Powermode state = 8) + +Test Procedure: +1. Set the Power Mode as Pre Stand by + Powermode state = 0 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Power mode is Engine Run(i.e. Powermode state = 8) + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Power mode is Engine Run(i.e. Powermode state = 8) + +Test Procedure: +1. Set the Power Mode as Transport Park + Powermode state = 2 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Power mode is Engine Run(i.e. Powermode state = 8) + +Test Procedure: +1. Set the Power Mode as Key In + Powermode state = 3 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Power mode is Engine Run(i.e. Powermode state = 8) + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Power mode is Engine Run(i.e. Powermode state = 8) + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Power mode is Engine Run(i.e. Powermode state = 8) + +Test Procedure: +1. Set the Power Mode as Active(Ignition ON) + Powermode state = 6 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Power mode is Engine Run(i.e. Powermode state = 8) + +Test Procedure: +1. Set the Power Mode as Transport Drive + Powermode state = 7 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Power mode is Engine Run(i.e. Powermode state = 8) + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Power mode is Engine Run(i.e. Powermode state = 8) + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = 0xA + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set CabinCoolingSolValveState= 0 + ComfortState = 1 (verify Expected output a) +3. Set CabinCoolingSolValveState= 0 + ComfortState = 0 (verify Expected output b) + + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: +after executing test procedure 2, + a. Telemetry Record Element - AirConditioningStartEvent + +after executing test procedure 3, + b. Telemetry Record Element - AirConditioningStopEvent + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set CabinCoolingSolValveState= 2 + ComfortState = 0 (verify Expected output a) +3. Set CabinCoolingSolValveState= 0 + ComfortState = 0 (verify Expected output b) + + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: +after executing test procedure 2, + a. Telemetry Record Element - AirConditioningStartEvent + +after executing test procedure 3, + b. Telemetry Record Element - AirConditioningStopEvent + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set CabinCoolingSolValveState= 2 + ComfortState = 1 (verify Expected output a) +3. Set CabinCoolingSolValveState= 0 + ComfortState = 0 (verify Expected output b) + + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: +after executing test procedure 2, + a. Telemetry Record Element - AirConditioningStartEvent + +after executing test procedure 3, + b. Telemetry Record Element - AirConditioningStopEvent + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) AirConditioningStartEvent is not active/initiated + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set below signals, + CabinCoolingSolValveStateStatus = 2 + CabinCoolingSolValveState = 2 + Set ComfortState = 1 + ComfortStateStatus = 0 + + +Expected Output: + +I. verify the following events has not occured on Cloud: + a. Telemetry Record Element - AirConditioningStartEvent + b. Telemetry Record Element - ComfortEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) AirConditioningStartEvent is not active/initiated + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set below signals, + CabinCoolingSolValveStateStatus = 0 + CabinCoolingSolValveState = 2 + Set ComfortState = 1 + ComfortStateStatus = 3 + + +Expected Output: + +I. verify the following events has not occured on Cloud: + a. Telemetry Record Element - AirConditioningStartEvent + b. Telemetry Record Element - ComfortEvent + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set AcCmprStatus = 1 (verify Expected output a) +3. Set AcCmprStatus = 0 (verify Expected output b) + + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: +after executing test procedure 2, + a. Telemetry Record Element - AirConditioningStartEvent + +after executing test procedure 3, + b. Telemetry Record Element - AirConditioningStopEvent + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleMobilizeEvent & VehicleImmobilizeEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set VehicleMobilizationState = 1 + VehicleMobilizationStateStatus = 0 +3. Set VehicleMobilizationState = 2 + VehicleMobilizationStateStatus = 0 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: +after executing test procedure 2, + a. Telemetry Record Element - VehicleMobilizeEvent + +after executing test procedure 3, + a. Telemetry Record Element - VehicleImmobilizeEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleMobilizeEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 + VehicleMobilizationStateStatus = 2 +2. Set VehicleMobilizationState = 1 + + +Expected Output: + +I. verify the following Event has not occurred on Cloud: + + a. Telemetry Record Element - VehicleMobilizeEvent + + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleMobilizeEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 + VehicleMobilizationStateStatus = 3 +2. Set VehicleMobilizationState = 1 + + +Expected Output: + +I. verify the following Event has not occurred on Cloud: + + a. Telemetry Record Element - VehicleMobilizeEvent + + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleImmobilizeEvent alongwith status signal set to implausible. + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 + VehicleMobilizationStateStatus = 2 +2. Set VehicleMobilizationState = 1 + + +Expected Output: + +I. verify the following Event has not occurred on Cloud: + + a. Telemetry Record Element - VehicleImmobilizeEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleImmobilizeEvent alongwith status signal set to SNA. + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 + VehicleMobilizationStateStatus = 3 +2. Set VehicleMobilizationState = 1 + + +Expected Output: + +I. verify the following Event has not occurred on Cloud: + + a. Telemetry Record Element - VehicleImmobilizeEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent & VehicleUnsecureEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set VehicleSecured = 1 + VehicleSecuredStatus = 0 +3. Set VehicleSecured = 0 + VehicleSecuredStatus = 0 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: +after executing test procedure 2, + a. Telemetry Record Element - VehicleSecureEvent + +after executing test procedure 3, + a. Telemetry Record Element - VehicleUnsecureEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent alongwith status signal set to implausible. + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleSecuredStatus = 2 + Set VehicleSecured = 1 + +Expected Output: +I. verify the following Event has not occurred on Cloud: + + a. Telemetry Record Element - VehicleSecureEvent + +after executing test procedure 3, + a. Telemetry Record Element - VehicleUnsecureEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent alongwith status signal set to SNA. + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleSecuredStatus = 3 + Set VehicleSecured = 1 + +Expected Output: +I. verify the following Event has not occurred on Cloud: + + a. Telemetry Record Element - VehicleSecureEvent + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent alongwith status signal set to implausible. + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Set VehicleSecured = 1 + VehicleSecuredStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleSecuredStatus = 2 Set VehicleSecured = 0 + + + +Expected Output: +I. verify the following Event has not occurred on Cloud: + + a. Telemetry Record Element - VehicleUnsecureEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent alongwith status signal set to SNA. + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Set VehicleSecured = 1 + VehicleSecuredStatus = 0 + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleSecuredStatus = 3 + Set VehicleSecured = 0 + +Expected Output: +I. verify the following Event has not occurred on Cloud: + + a. Telemetry Record Element - VehicleUnsecureEvent + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set VehicleLockState = 1 + VehicleLockStateStatus = 0 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleLockStateStatus = 2 VehicleLockState = 1 + +Expected Output: +I. verify the following Event has not occurred on Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleLockStateStatus = 0 Set VehicleLockState = 1 + +Expected Output: +I. verify the following Event has not occurred on Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set VehicleLockState = 2 + VehicleLockStateStatus = 0 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleLockStateStatus = 2 VehicleLockState = 2 + +Expected Output: +I. verify the following Event has not occurred on Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleLockStateStatus = 3 VehicleLockState = 2 + +Expected Output: +I. verify the following Event has not occurred on Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleUnlockEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Locked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set VehicleLockState = 3 + VehicleLockStateStatus = 0 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - VehicleUnlockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleLockStateStatus = 2 Set VehicleLockState = 3 + + +Expected Output: +I. verify the following Event has not occurred on Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set VehicleLockStateStatus = 3 VehicleLockState = 3 + VehicleLockStateStatus = 0 + +Expected Output: +I. verify the following Event has not occurred on Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleUnlockEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Locked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set VehicleLockState = 4 + VehicleLockStateStatus = 0 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - VehicleUnlockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleLockStateStatus = 2 Set VehicleLockState = 4 + + +Expected Output: +I. verify the following Event has not occurred on Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleLockStateStatus = 0 Set VehicleLockState = 4 + + +Expected Output: +I. verify the following Event has not occurred on Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleUnlockEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Locked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set VehicleLockState = 5 + VehicleLockStateStatus = 0 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - VehicleUnlockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2.VehicleLockStateStatus = 2 Set VehicleLockState = 5 + + +Expected Output: +I. verify the following Event has not occurred on Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleLockStateStatus = 3 Set VehicleLockState = 5 + + +Expected Output: +I. verify the following Event has not occurred on Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set VehicleLockState = 6 + VehicleLockStateStatus = 0 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleLockStateStatus = 2 Set VehicleLockState = 6 + + +Expected Output: +I. verify the following Event has not occurred on Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleLockStateStatus = 3 Set VehicleLockState = 6 + + +Expected Output: +I. verify the following Event has not occurred on Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleUnlockEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Locked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Set VehicleLockState = 7 + VehicleLockStateStatus = 0 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - VehicleUnlockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleLockStateStatus = 2 Set VehicleLockState = 7 + + +Expected Output: +I. verify the following Event has not occurred on Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. VehicleLockStateStatus = 3 Set VehicleLockState = 7 + + +Expected Output: +I. verify the following Event has not occurred on Cloud: + a. Telemetry Record Element - VehicleLockEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ComfortEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set ComfortState = 1 + ComfortStateStatus = 0 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ComfortEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ComfortEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set ComfortState = 0 + ComfortStateStatus = 0 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ComfortEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of HornEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +Bosch test report to be referred for test procedure + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - HornEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of IgnitionOffEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +Bosch test report to be referred for test procedure + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - IgnitionOffEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of IgnitionOnEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +Bosch test report to be referred for test procedure + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - IgnitionOnEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of TCMSleepEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +Bosch test report to be referred for test procedure + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - TCMSleepEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of TCMWakeUpEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +Bosch test report to be referred for test procedure + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - TCMWakeUpEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of TCMSelfHealthCheckEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +Bosch test report to be referred for test procedure + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - TCMSelfHealthCheckEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set SharedLocationReq = 1 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set SharedLocationReq = 1 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set SharedLocationReq = 1 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 1 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 2 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 3 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 4 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 5 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 1 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 2 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 3 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 4 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 5 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 1 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 2 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 3 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 4 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set SharedLocationReq = 2 + SharingTimeDuration = 5 + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of HeartbeatEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +Bosch test report to be referred for test procedure + +Expected Output: + +I. verify the following Event details is displayed in the Cloud: + a. Telemetry Record Element - HeartbeatEvent + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA BrakeFluidAlert is detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2.Read the Below signals from IPC + IcHuBrakeFluidLowState +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert + +II If IcHuBrakeFluidLowState = 0 Then + BrakeFluidAlert = 0 Should be updated in cloud It should NAt generate any alert + +III If IcHuBrakeFluidLowState Is = 1 or 2 + BrakeFluidAlert = 1 or 2 Should be updated in cloud. It should generate alert + +IV. verified BrakeFluidAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA BrakeFluidAlert is detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2.Read the Below signals from IPC + IcHuBrakeFluidLowState +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert + +II If IcHuBrakeFluidLowState = 0 Then + BrakeFluidAlert = 0 Should be updated in cloud It should NAt generate any alert + +III If IcHuBrakeFluidLowState Is = 1 or 2 + BrakeFluidAlert = 1 or 2 Should be updated in cloud. It should generate alert + +IV. verified BrakeFluidAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA BrakeFluidAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Read the Below signals from IPC + IcHuBrakeFluidLowState +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert + +II If IcHuBrakeFluidLowState = 0 Then + BrakeFluidAlert = 0 Should be updated in cloud It should NAt generate any alert + +III If IcHuBrakeFluidLowState Is = 1 or 2 + BrakeFluidAlert = 1 or 2 Should be updated in cloud. It should generate alert + +IV. verified BrakeFluidAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Pre-Standby + Powermode state = 0 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Park + Powermode state = 2 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Drive + Powermode state = 7 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Next service Due Alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Next service Due Alert is detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from IPC NextServDueAlertStatus +NextServDueAlert +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + +II If NextServDueAlertStatus = 2 + Then ServiceReminderAlert = 0 or 1 Should be Updated in cloud + +III If NextServDueAlertStatus =0 + Then ServiceReminderAlert = 4 Should be Updated in cloud + + + +II. verified the ServiceReminderAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Next service Due Alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Next service Due Alert is detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from IPC NextServDueAlertStatus +NextServDueAlert +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + +II If NextServDueAlertStatus = 2 + Then ServiceReminderAlert = 0 or 1 Should be Updated in cloud + +III If NextServDueAlertStatus =0 + Then ServiceReminderAlert = 4 Should be Updated in cloud + + + +II. verified the ServiceReminderAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Next service Due Alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Next service Due Alert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from IPC NextServDueAlertStatus +NextServDueAlert +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + +II If NextServDueAlertStatus = 2 + Then ServiceReminderAlert = 0 or 1 Should be Updated in cloud + +III If NextServDueAlertStatus =0 + Then ServiceReminderAlert = 4 Should be Updated in cloud + + + +II. verified the ServiceReminderAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for EPAS Alert from EPAS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)NA Next EPASAlert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from EPAS + EPAsStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - EPASAlert + +II. If the EPAsStatus = 0 + EPASAlert = 0 Should be updated in cloud + +III. If the EPAsStatus = 2 + EPASAlert = 2 Should be updated in cloud + +III. If the EPAsStatus = 1 Or 3 + EPASAlert = 4 Should be updated in cloud +II. verified the EPASAlert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for EPAS Alert from EPAS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)NA Next EPASAlert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from EPAS + EPAsStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - EPASAlert + +II. If the EPAsStatus = 0 + EPASAlert = 0 Should be updated in cloud + +III. If the EPAsStatus = 2 + EPASAlert = 2 Should be updated in cloud + +III. If the EPAsStatus = 1 Or 3 + EPASAlert = 4 Should be updated in cloud +II. verified the EPASAlert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for EPAS Alert from EPAS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)NA Next EPASAlert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from EPAS + EPAsStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - EPASAlert + +II. If the EPAsStatus = 0 + EPASAlert = 0 Should be updated in cloud + +III. If the EPAsStatus = 2 + EPASAlert = 2 Should be updated in cloud + +III. If the EPAsStatus = 1 Or 3 + EPASAlert = 4 Should be updated in cloud +II. verified the EPASAlert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Crash is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from SRS + CrashoutputSignal + +3. Check whether NArmal Alert is detected in Cloud + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashAlert + b. Telemetry Record Element - CrashEvent + C. Telemetry Record Element - eCallEvent + +II If the CrashoutputSignal = 0 + Then CrashAlert = 0 Should be updated in cloud + +III If the CrashoutputSignal = 1 + Then CrashAlert = 1 Should be updated in cloud + +IV If the CrashoutputSignal = 2 + Then CrashAlert = 2 Should be updated in cloud + +V If the CrashoutputSignal = 4 + Then CrashAlert = 4 Should be updated in cloud + +VI If the CrashoutputSignal = 8 + Then CrashAlert = 8 Should be updated in cloud + +VII If the CrashoutputSignal = 10 + Then CrashAlert = 10 Should be updated in cloud + VIII. verifiey Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Crash is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from SRS + CrashoutputSignal + +3. Check whether NArmal Alert is detected in Cloud + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashAlert + b. Telemetry Record Element - CrashEvent + C. Telemetry Record Element - eCallEvent + +II If the CrashoutputSignal = 0 + Then CrashAlert = 0 Should be updated in cloud + +III If the CrashoutputSignal = 1 + Then CrashAlert = 1 Should be updated in cloud + +IV If the CrashoutputSignal = 2 + Then CrashAlert = 2 Should be updated in cloud + +V If the CrashoutputSignal = 4 + Then CrashAlert = 4 Should be updated in cloud + +VI If the CrashoutputSignal = 8 + Then CrashAlert = 8 Should be updated in cloud + +VII If the CrashoutputSignal = 10 + Then CrashAlert = 10 Should be updated in cloud + VIII. verifiey Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Crash is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from SRS + CrashoutputSignal + +3. Check whether NArmal Alert is detected in Cloud + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashAlert + b. Telemetry Record Element - CrashEvent + C. Telemetry Record Element - eCallEvent + +II If the CrashoutputSignal = 0 + Then CrashAlert = 0 Should be updated in cloud + +III If the CrashoutputSignal = 1 + Then CrashAlert = 1 Should be updated in cloud + +IV If the CrashoutputSignal = 2 + Then CrashAlert = 2 Should be updated in cloud + +V If the CrashoutputSignal = 4 + Then CrashAlert = 4 Should be updated in cloud + +VI If the CrashoutputSignal = 8 + Then CrashAlert = 8 Should be updated in cloud + +VII If the CrashoutputSignal = 10 + Then CrashAlert = 10 Should be updated in cloud + VIII. verifiey Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ABS status Alert from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA ABSESPMalfunction Alert, + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from ABS/ESP + ABsStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ABSESPMalfunction + +II If the ABsStatus = 0 + Then ABSESPMalfunctionAlert = 0 Should be updated in cloud + +III If the ABsStatus = 1 + Then ABSESPMalfunctionAlert = 4 Should be updated in cloud + +IV If the ABsStatus = 2 + Then ABSESPMalfunctionAlert = 2 Should be updated in cloud + +V If the ABsStatus = 3 + Then ABSESPMalfunctionAlert = 4 Should be updated in cloud +II. verified the ABsStatus Alert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ABS status Alert from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA ABSESPMalfunction Alert, + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from ABS/ESP + ABsStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ABSESPMalfunction + +II If the ABsStatus = 0 + Then ABSESPMalfunctionAlert = 0 Should be updated in cloud + +III If the ABsStatus = 1 + Then ABSESPMalfunctionAlert = 4 Should be updated in cloud + +IV If the ABsStatus = 2 + Then ABSESPMalfunctionAlert = 2 Should be updated in cloud + +V If the ABsStatus = 3 + Then ABSESPMalfunctionAlert = 4 Should be updated in cloud +II. verified the ABsStatus Alert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ABS status Alert from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA ABSESPMalfunction Alert, + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from ABS/ESP + ABsStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ABSESPMalfunction + +II If the ABsStatus = 0 + Then ABSESPMalfunctionAlert = 0 Should be updated in cloud + +III If the ABsStatus = 1 + Then ABSESPMalfunctionAlert = 4 Should be updated in cloud + +IV If the ABsStatus = 2 + Then ABSESPMalfunctionAlert = 2 Should be updated in cloud + +V If the ABsStatus = 3 + Then ABSESPMalfunctionAlert = 4 Should be updated in cloud +II. verified the ABsStatus Alert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Intrusion Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from BCM + IntrusionInfoState + IntrusionInfoStateStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent + +II If the IntrusionInfoStateStatus = 0 + Then IntrusionAlert = 0 or 1 Should be updated in cloud + +III. verified the IntrusionAlert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Pre-Standby + Powermode state = 0 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state =A +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state =B +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state =5 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state =7 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Set the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 +HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 +HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 +HVBatteryLowChargeAlert = 2 Should be updated in cloud + + +V. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 +HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 +HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 +HVBatteryLowChargeAlert = 2 Should be updated in cloud + + +V. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is NArmal + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + IntakeChargerHighTemp + IntakeChargerHighTempStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + + + +II if IntakeChargerHighTempStatus = 0 +then IntakeChargerHighAlert = 0 or 1 should be updated on cloud + + +III. verified the IntakeChargerTemperatureHighAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is NArmal + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + IntakeChargerHighTemp + IntakeChargerHighTempStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + + + +II if IntakeChargerHighTempStatus = 0 +then IntakeChargerHighAlert = 0 or 1 should be updated on cloud + + +III. verified the IntakeChargerTemperatureHighAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is NArmal + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + IntakeChargerHighTemp + IntakeChargerHighTempStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + + + +II if IntakeChargerHighTempStatus = 0 +then IntakeChargerHighAlert = 0 or 1 should be updated on cloud + + +III. verified the IntakeChargerTemperatureHighAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Prestandby + Powermode state = 0 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Vehicle LV battery Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 6 +2. Set the Below signals from VCU + LowLVBatteryCharge + LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - Vehicle LV battery Alert + b. Telemetry Record Element - EngineStartEvent + +II If LowLVBatteryChargeStatus = 0 + Then Vehicle LV battery Alert =1 OR 2 Should be updated on cloud + +II. verified the Vehicle LV battery Alert is displayed OR NAT in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Vehicle LV battery Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowLVBatteryCharge + LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - Vehicle LV battery Alert + b. Telemetry Record Element - EngineStartEvent + +II If LowLVBatteryChargeStatus = 0 + Then Vehicle LV battery Alert =1 OR 2 Should be updated on cloud + +II. verified the Vehicle LV battery Alert is displayed OR NAT in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Vehicle LV battery Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from VCU + LowLVBatteryCharge + LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - Vehicle LV battery Alert + b. Telemetry Record Element - EngineStartEvent + +II If LowLVBatteryChargeStatus = 0 + Then Vehicle LV battery Alert =1 OR 2 Should be updated on cloud + +II. verified the Vehicle LV battery Alert is displayed OR NAT in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftFrontTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 4 +2. Read the Below signals from TPMS1 + HighTirePresAlertFL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II If HighTirePresAlertFL = 0 + Then LeftFrontTyrePressureAlert = 0 Should be updated in cloud + +III II If HighTirePresAlertFL = 1 + Then LeftFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftFrontTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS1 + HighTirePresAlertFL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II If HighTirePresAlertFL = 0 + Then LeftFrontTyrePressureAlert = 0 Should be updated in cloud + +III II If HighTirePresAlertFL = 1 + Then LeftFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftFrontTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS1 + HighTirePresAlertFL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II If HighTirePresAlertFL = 0 + Then LeftFrontTyrePressureAlert = 0 Should be updated in cloud + +III II If HighTirePresAlertFL = 1 + Then LeftFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftFrontTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 9 +2. Read the Below signals from TPMS1 + HighTirePresAlertFL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II If LowTirePresAlertFL = 0 + Then LeftFrontTyrePressureAlert = 0 Should be updated in cloud + +III II If LowTirePresAlertFL = 1 + Then LeftFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftFrontTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS1 + HighTirePresAlertFL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II If LowTirePresAlertFL = 0 + Then LeftFrontTyrePressureAlert = 0 Should be updated in cloud + +III II If LowTirePresAlertFL = 1 + Then LeftFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftFrontTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS1 + HighTirePresAlertFL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II If LowTirePresAlertFL = 0 + Then LeftFrontTyrePressureAlert = 0 Should be updated in cloud + +III II If LowTirePresAlertFL = 1 + Then LeftFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftRearTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from TPMS1 + HighTirePresAlertRL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II If HighTirePresAlertRL = 0 + Then LeftRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertFL = 1 + Then LeftRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftRearTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftRearTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS1 + HighTirePresAlertRL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II If HighTirePresAlertRL = 0 + Then LeftRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertFL = 1 + Then LeftRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftRearTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftRearTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS1 + HighTirePresAlertRL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II If HighTirePresAlertRL = 0 + Then LeftRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertFL = 1 + Then LeftRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftRearTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftRearTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS1 + LowTirePresAlertRL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II If LowTirePresAlertRL = 0 + Then LeftRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertRL= 1 + Then LeftRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftRearTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftRearTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from TPMS1 + LowTirePresAlertRL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II If LowTirePresAlertRL = 0 + Then LeftRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertRL= 1 + Then LeftRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftRearTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftRearTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS1 + LowTirePresAlertRL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II If LowTirePresAlertRL = 0 + Then LeftRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertRL= 1 + Then LeftRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftRearTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightFrontTyrePressureAlert signal + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS1 + HighTirePresAlertFR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II If HighTirePresAlertFR = 0 + Then RightFrontTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertFR= 1 + Then RightFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightFrontTyrePressureAlert signal + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from TPMS1 + HighTirePresAlertFR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II If HighTirePresAlertFR = 0 + Then RightFrontTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertFR= 1 + Then RightFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightFrontTyrePressureAlert signal + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS1 + HighTirePresAlertFR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II If HighTirePresAlertFR = 0 + Then RightFrontTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertFR= 1 + Then RightFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightFrontTyrePressureAlert signal + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS1 +LowTirePresAlertFR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II If LowTirePresAlertFR = 0 + Then RightFrontTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertFR= 1 + Then RightFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightFrontTyrePressureAlert signal + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from TPMS1 +LowTirePresAlertFR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II If LowTirePresAlertFR = 0 + Then RightFrontTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertFR= 1 + Then RightFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightFrontTyrePressureAlert signal + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS1 +LowTirePresAlertFR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II If LowTirePresAlertFR = 0 + Then RightFrontTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertFR= 1 + Then RightFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightRearTyrePressureAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State 6 +2. Read the Below signals from TPMS + HighTirePresAlertRR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II If HighTirePresAlertRR = 0 + Then RightRearTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertRR= 1 + Then RightRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightRearTyrePressureAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS + HighTirePresAlertRR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II If HighTirePresAlertRR = 0 + Then RightRearTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertRR= 1 + Then RightRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightRearTyrePressureAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS + HighTirePresAlertRR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II If HighTirePresAlertRR = 0 + Then RightRearTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertRR= 1 + Then RightRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightRearTyrePressureAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State 6 +2. Read the Below signals from TPMS + HighTirePresAlertRR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II If LowTirePresAlertRR = 0 + Then RightRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertRR= 1 + Then RightRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightRearTyrePressureAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State 8 +2. Read the Below signals from TPMS + HighTirePresAlertRR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II If LowTirePresAlertRR = 0 + Then RightRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertRR= 1 + Then RightRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightRearTyrePressureAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State 9 +2. Read the Below signals from TPMS + HighTirePresAlertRR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II If LowTirePresAlertRR = 0 + Then RightRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertRR= 1 + Then RightRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA SpareTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from TPMS + HighTirePresAlertSpare +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II If HighTirePresAlertSpare= 0 + Then SpareTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertSpare= 1 + Then SpareTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the SpareTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA SpareTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS + HighTirePresAlertSpare +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II If HighTirePresAlertSpare= 0 + Then SpareTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertSpare= 1 + Then SpareTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the SpareTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA SpareTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS + HighTirePresAlertSpare +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II If HighTirePresAlertSpare= 0 + Then SpareTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertSpare= 1 + Then SpareTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the SpareTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Low fuel Alert is detected or NAt in cloud + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State =6 +2. Read the Below signals from IPC + LowFuelOutputIC +LowFuelOutputICStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II If LowFuelOutputICStatus = 0 + Then Low fuel alert = 0 or 1 Should be updated in cloud + +III. verified the Low fuel alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Low fuel Alert is detected or NAt in cloud + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from IPC + LowFuelOutputIC +LowFuelOutputICStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II If LowFuelOutputICStatus = 0 + Then Low fuel alert = 0 or 1 Should be updated in cloud + +III. verified the Low fuel alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Low fuel Alert is detected or NAt in cloud + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from IPC + LowFuelOutputIC +LowFuelOutputICStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II If LowFuelOutputICStatus = 0 + Then Low fuel alert = 0 or 1 Should be updated in cloud + +III. verified the Low fuel alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Engine malfunction Alert signal from EMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Engine Malfunction Alert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from EMS + MiLampState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Engine Malfunction Alert + +II If MiLampState = 0 +Then Engine Malfunction Alert=0 Should be updated in cloud + +III If MiLampState = 1 +Then Engine Malfunction Alert=1 Should be updated in cloud + +IV If MiLampState = 2 +Then Engine Malfunction Alert=2 Should be updated in cloud + +II. verified the Engine Malfunction Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Engine Oil Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Engine Oil Alert Alert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from IPC + IcHuEngineOilPressureLowState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Engine Oil Alert + +II If IcHuEngineOilPressureLowState = 0 +Then Engine Oil Alert=0 Should be updated in cloud + +III If IcHuEngineOilPressureLowState = 1 +Then Engine Oil =1 Should be updated in cloud + +IV IcHuEngineOilPressureLowState = 2 +Then Engine Oil Alert=2 Should be updated in cloud + +V. verified the EnEngine Oil Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHHcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HHcStatusAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from ABS/ESP + HHcStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HHcStatusAlert + +II If HHcStatus =0 + HHcStatusAlert = 0 Should be updated in cloud + +III If HHcStatus = 2 + HHcStatusAlert = 2 Should be updated in cloud + +IV If HHcStatus = 3 + HHcStatusAlert = 3 Should be updated in cloud +V . verified the HHcStatusAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHHcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HHcStatusAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from ABS/ESP + HHcStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HHcStatusAlert + +II If HHcStatus =0 + HHcStatusAlert = 0 Should be updated in cloud + +III If HHcStatus = 2 + HHcStatusAlert = 2 Should be updated in cloud + +IV If HHcStatus = 3 + HHcStatusAlert = 3 Should be updated in cloud +V . verified the HHcStatusAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHHcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HHcStatusAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from ABS/ESP + HHcStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HHcStatusAlert + +II If HHcStatus =0 + HHcStatusAlert = 0 Should be updated in cloud + +III If HHcStatus = 2 + HHcStatusAlert = 2 Should be updated in cloud + +IV If HHcStatus = 3 + HHcStatusAlert = 3 Should be updated in cloud +V . verified the HHcStatusAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHDcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HDcStatusAlert is detected, + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from ABS/ESP + HDcStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HDcStatusAlert + +II If HHcStatus =0 + HDcStatusAlert = 0 Should be updated in cloud + +III If HHcStatus = 1 + HDcStatusAlert = 1 Should be updated in cloud + +IV If HHcStatus = 2 + HDcStatusAlert = 2 Should be updated in cloud +V . verified the HHcStatusAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHDcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HDcStatusAlert is detected, + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from ABS/ESP + HDcStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HDcStatusAlert + +II If HHcStatus =0 + HDcStatusAlert = 0 Should be updated in cloud + +III If HHcStatus = 1 + HDcStatusAlert = 1 Should be updated in cloud + +IV If HHcStatus = 2 + HDcStatusAlert = 2 Should be updated in cloud +V . verified the HHcStatusAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHDcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HDcStatusAlert is detected, + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from ABS/ESP + HDcStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HDcStatusAlert + +II If HHcStatus =0 + HDcStatusAlert = 0 Should be updated in cloud + +III If HHcStatus = 1 + HDcStatusAlert = 1 Should be updated in cloud + +IV If HHcStatus = 2 + HDcStatusAlert = 2 Should be updated in cloud +V . verified the HHcStatusAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Driver SeatBelt Alert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Set the Below signals from IPC + IcSbrDrvrSeatBeltSwitchStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + + +II If IcSbrDrvrSeatBeltSwitchStatus = 0 + Driver SeatBelt Alert = 0 Should be updated in cloud + +III If IcSbrDrvrSeatBeltSwitchStatus = 1 + Driver SeatBelt Alert = 1 Should be updated in cloud + +II. verified the Driver SeatBelt Alert is displayedor NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Driver SeatBelt Alert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from IPC + IcSbrDrvrSeatBeltSwitchStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + + +II If IcSbrDrvrSeatBeltSwitchStatus = 0 + Driver SeatBelt Alert = 0 Should be updated in cloud + +III If IcSbrDrvrSeatBeltSwitchStatus = 1 + Driver SeatBelt Alert = 1 Should be updated in cloud + +II. verified the Driver SeatBelt Alert is displayedor NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Driver SeatBelt Alert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + IcSbrDrvrSeatBeltSwitchStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + + +II If IcSbrDrvrSeatBeltSwitchStatus = 0 + Driver SeatBelt Alert = 0 Should be updated in cloud + +III If IcSbrDrvrSeatBeltSwitchStatus = 1 + Driver SeatBelt Alert = 1 Should be updated in cloud + +II. verified the Driver SeatBelt Alert is displayedor NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) CoDriverSeatbeltAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Set the Below signals from SRS + FrPassSBRIndication +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + + +II If FrPassSBRIndication = 0 + Driver SeatBelt Alert = 0 Should be updated in cloud + +III If FrPassSBRIndication = 1 + Driver SeatBelt Alert = 1 Should be updated in cloud + +II. verified the CoDriverSeatbeltAlert is displayedor NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) CoDriverSeatbeltAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from SRS + FrPassSBRIndication +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + + +II If FrPassSBRIndication = 0 + Driver SeatBelt Alert = 0 Should be updated in cloud + +III If FrPassSBRIndication = 1 + Driver SeatBelt Alert = 1 Should be updated in cloud + +II. verified the CoDriverSeatbeltAlert is displayedor NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) CoDriverSeatbeltAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from SRS + FrPassSBRIndication +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + + +II If FrPassSBRIndication = 0 + Driver SeatBelt Alert = 0 Should be updated in cloud + +III If FrPassSBRIndication = 1 + Driver SeatBelt Alert = 1 Should be updated in cloud + +II. verified the CoDriverSeatbeltAlert is displayedor NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for AirbagECuMalfunctionAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) AirbagECuMalfunctionAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Read the Below signals from SRS + SRSWarningLamp +SRSWarningLampStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - AirbagECuMalfunctionAlert + +II If SRSWarningLampStatus = 0 +AirbagECuMalfunctionAlert = 0 Should be updated in cloud + +III If SRSWarningLampStatus = 1 +AirbagECuMalfunctionAlert = 1Should be updated in cloud + +II. verified the AirbagECuMalfunctionAlert is Displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for AirbagECuMalfunctionAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) AirbagECuMalfunctionAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from SRS + SRSWarningLamp +SRSWarningLampStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - AirbagECuMalfunctionAlert + +II If SRSWarningLampStatus = 0 +AirbagECuMalfunctionAlert = 0 Should be updated in cloud + +III If SRSWarningLampStatus = 1 +AirbagECuMalfunctionAlert = 1Should be updated in cloud + +II. verified the AirbagECuMalfunctionAlert is Displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for AirbagECuMalfunctionAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) AirbagECuMalfunctionAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from SRS + SRSWarningLamp +SRSWarningLampStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - AirbagECuMalfunctionAlert + +II If SRSWarningLampStatus = 0 +AirbagECuMalfunctionAlert = 0 Should be updated in cloud + +III If SRSWarningLampStatus = 1 +AirbagECuMalfunctionAlert = 1Should be updated in cloud + +II. verified the AirbagECuMalfunctionAlert is Displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Pre-Standby + Powermode State = 0 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode State = 2 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode State = 3 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode State = 7 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode State = A +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode State = B +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ForcePanicAlert signal from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ForcePanicAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Read the Below signals from BCM + ForcePanicStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ForcePanicAlert + +II If ForcePanicStatus = 0 + Then ForcePanicAlert = 0 Should be updated in cloud + +III If ForcePanicStatus = 1 + Then ForcePanicAlert = 1 Should be updated in cloud + + +IV. verified the ForcePanicAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)TransmissionFaultAlert is NAt detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from AMT/DCT +TransServiceIndication + +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II If TransServiceIndication = 0 + Then TransmissionFaultAlert = 0 Should be updated in cloud + +III If TransServiceIndication = 1 + Then TransmissionFaultAlert = 1 Should be updated in cloud + +III If TransServiceIndication = 2 + Then TransmissionFaultAlert = 2 Should be updated in cloud + +V. verified the TransmissionFaultAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)TransmissionFaultAlert is NAt detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from AMT/DCT +TransServiceIndication + +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II If TransServiceIndication = 0 + Then TransmissionFaultAlert = 0 Should be updated in cloud + +III If TransServiceIndication = 1 + Then TransmissionFaultAlert = 1 Should be updated in cloud + +IV If TransServiceIndication = 2 + Then TransmissionFaultAlert = 2 Should be updated in cloud + +V. verified the TransmissionFaultAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)TransmissionFaultAlert is NAt detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from AMT/DCT +TransServiceIndication + +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II If TransServiceIndication = 0 + Then TransmissionFaultAlert = 0 Should be updated in cloud + +III If TransServiceIndication = 1 + Then TransmissionFaultAlert = 1 Should be updated in cloud + +III If TransServiceIndication = 2 + Then TransmissionFaultAlert = 2 Should be updated in cloud + +IV. verified the TransmissionFaultAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)TransmissionFaultAlert is NAt detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from AMT/DCT +TransServiceIndicationDCT + +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II If TransServiceIndication = 0 + Then TransmissionFaultAlert = 0 Should be updated in cloud + +III If TransServiceIndicationDCT = 1 + Then TransmissionFaultAlert = 1 Should be updated in cloud + +Iv If TransServiceIndicationDCT = 2 + Then TransmissionFaultAlert = 2 Should be updated in cloud + +V. verified the TransmissionFaultAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)TransmissionFaultAlert is NAt detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from AMT/DCT +TransServiceIndicationDCT + +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II If TransServiceIndication = 0 + Then TransmissionFaultAlert = 0 Should be updated in cloud + +III If TransServiceIndicationDCT = 1 + Then TransmissionFaultAlert = 1 Should be updated in cloud + +Iv If TransServiceIndicationDCT = 2 + Then TransmissionFaultAlert = 2 Should be updated in cloud + +V. verified the TransmissionFaultAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)TransmissionFaultAlert is NAt detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from AMT/DCT +TransServiceIndicationDCT + +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II If TransServiceIndication = 0 + Then TransmissionFaultAlert = 0 Should be updated in cloud + +III If TransServiceIndicationDCT = 1 + Then TransmissionFaultAlert = 1 Should be updated in cloud + +Iv If TransServiceIndicationDCT = 2 + Then TransmissionFaultAlert = 2 Should be updated in cloud + +V. verified the TransmissionFaultAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ParkBrakeAlert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ParkBrakeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from IPC + ParkBrkState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeAlert + +II If ParkBrkState = 0 +Then ParkBrakeAlert = 0 Should be updated in cloud + +III If ParkBrkState = 1 +Then ParkBrakeAlert = 1 Should be updated in cloud + +IV. verified the ParkBrakeAlert is Detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ParkBrakeAlert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ParkBrakeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from IPC + ParkBrkState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeAlert + +II If ParkBrkState = 0 +Then ParkBrakeAlert = 0 Should be updated in cloud + +III If ParkBrkState = 1 +Then ParkBrakeAlert = 1 Should be updated in cloud + +IV. verified the ParkBrakeAlert is Detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ParkBrakeAlert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ParkBrakeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from IPC + ParkBrkState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeAlert + +II If ParkBrkState = 0 +Then ParkBrakeAlert = 0 Should be updated in cloud + +III If ParkBrkState = 1 +Then ParkBrakeAlert = 1 Should be updated in cloud + +IV. verified the ParkBrakeAlert is Detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode State = 0 +2. Set the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode State = 2 +2. Reead the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode State = 3 +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode State = 7 +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode State = A +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode State = B +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode State = 0 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode State = 2 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode State = 3 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode State = 7 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode State = A +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode State = B +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Pre-Standby + Powermode State = 0 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode State = 2 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode State = 3 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Tansport DriveActive + Powermode State = 7 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode State = A +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode State = B +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect Vehicle Battery is disconnected + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Disconnect Vehicle Battery. + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - VehicleBatteryDisconnectAlert + +II. verified the VehicleBatteryDisconnectAlert is Deteceted or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA WaterInFuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Readthe Below signals from EMS + WIfLampState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert + +II If WIfLampState = 0 +Then WaterInFuelAlert = Should be updated in cloud + +III If WIfLampState = 1 +Then WaterInFuelAlert = 1Should be updated in cloud + +IV If WIfLampState = 2 +Then WaterInFuelAlert =2Should be updated in cloud + + +IV If WIfLampState = 3 +Then WaterInFuelAlert =3 Should be updated in cloud + +V. verified WaterInFuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA WaterInFuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Readthe Below signals from EMS + WIfLampState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert + +II If WIfLampState = 0 +Then WaterInFuelAlert = Should be updated in cloud + +III If WIfLampState = 1 +Then WaterInFuelAlert = 1Should be updated in cloud + +IV If WIfLampState = 2 +Then WaterInFuelAlert =2Should be updated in cloud + + +IV If WIfLampState = 3 +Then WaterInFuelAlert =3 Should be updated in cloud + +V. verified WaterInFuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA WaterInFuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Readthe Below signals from EMS + WIfLampState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert + +II If WIfLampState = 0 +Then WaterInFuelAlert = Should be updated in cloud + +III If WIfLampState = 1 +Then WaterInFuelAlert = 1Should be updated in cloud + +IV If WIfLampState = 2 +Then WaterInFuelAlert =2Should be updated in cloud + + +IV If WIfLampState = 3 +Then WaterInFuelAlert =3 Should be updated in cloud + +V. verified WaterInFuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state =5 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode state =6 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state =7 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ParkBrakeDisengagedAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ParkBrakeDisengagedAlert is detected + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + ParkBrkDisengaged + ParkBrkDisengagedStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of RefuelAlert from IPC + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NO RefuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Active(Ignition ON) + Powermode state = 6 +2. Read the Below signals from IPC + RefuelAlert +3. Check whether Normal Alert is detected or not detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - RefuelAlert + + +II IF RefuelAlert = 0 +then RefuelAlert is display =0 shouuld be updated in cloud + +III IF RefuelAlert = 1 +then RefuelAlert is display =1 shouuld be updated in cloud + +II. verified RefuelAlert is displayed or not didplayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of RefuelAlert from IPC + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No RefuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Engine Run + Powermode state = 8 +2. Read the Below signals from IPC + RefuelAlert +3. Check whether Normal Alert is detected or not detected in Cloud + + +Expected Output: + + +I. verified the following Alert details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - RefuelAlert + + +II IF RefuelAlert = 0 +then RefuelAlert is display =0 shouuld be updated in cloud + +III IF RefuelAlert = 1 +then RefuelAlert is display =1 shouuld be updated in cloud + +II. verified RefuelAlert is displayed or not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of RefuelAlert from IPC + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No RefuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Read the Below signals from IPC + RefuelAlert +3. Check whether Normal Alert is detected or not detected in Cloud + + +Expected Output: + + +I. verified the following Alert details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - RefuelAlert + + +II IF RefuelAlert = 0 +then RefuelAlert is display =0 shouuld be updated in cloud + +III IF RefuelAlert = 1 +then RefuelAlert is display =1 shouuld be updated in cloud + +II. verified RefuelAlert is displayed or not in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Pre Stand by + Powermode state = 0 + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and shouuld be updated in cloud + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 it should be updated on cloud +then Engine StopEvent is display or not displayed + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Transport Park + Powermode state = 2 + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and shouuld be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Key In + Powermode state = 3 + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and shouuld be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 + +Expected Output: + +I. verified the following Event details is displayed or not displated in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and shouuld be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and shouuld be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Active(Ignition ON) + Powermode state = 6 + +Expected Output: + +I. verified the following Event details is displayed or not displayedin the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Transport Drive + Powermode state = 7 + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 + +Expected Output: +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Read CabinCoolingSolValveStatte + ComfortState + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - AirConditioningStartEvent + II .If ComfortStateStatus = 0 then AirConditioningStopEvent is 0 or 1 and should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read CabinCoolingSolValveState + ComfortState + + + +Expected Output: +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - AirConditioningStartEvent + + + +II If ComfortStateStatus = 0 then AirConditioningStopEvent is 0 or and it should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 9 +2. Read CabinCoolingSolValveState + ComfortState + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - AirConditioningStartEvent +II If ComfortStateStatus = 0 then AirConditioningStopEvent is 0 or 1. and it should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Read AcCmprStatus + + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - AirConditioningStartEvent + II. If AcCmprStatus = 0 it should be updated on cloud then AirConditionningStart Event is 0 III .If AcCmprStatus = 1 AirConditionningStart Event is 1 and it should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read AcCmprStatus + + + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - AirConditioningStartEvent + II. If AcCmprStatus = 0 it should be updated on cloud then AirConditionningStart Event is 0 III .If AcCmprStatus = 1 AirConditionningStart Event is 1 and it should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read AcCmprStatus + + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - AirConditioningStartEvent + II. If AcCmprStatus = 0 AirConditionningStart Event is 0 and it should be updated in cloud III .If AcCmprStatus = 1 AirConditionningStart Event is 1 and it should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleMobilizeEvent & VehicleImmobilizeEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Read VehicleMobilizationState + VehicleMobilizationStateStatus + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure, + a. Telemetry Record Element - VehicleMobilizeEvent + + +II If VehicleMobilizationState = 0 VehicleImmobilizeEvent 0 or 1 or 2 and it should be updated in cloud + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleMobilizeEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition RUN + Powermode state = 8 +2. Read + VehicleMobilizationStateStatus = 2 VehicleMobilizationState + + +Expected Output: + + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleMobilizeEvent + + Element - VehicleImmobilizeEvent +II If VehicleMobilizationState = 0 VehicleImmobilizeEvent 0 or 1 or 2 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleMobilizeEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Read VehicleMobilizationStateStatus VehicleMobilizationState + + +Expected Output: + + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleMobilizeEvent + + +II If VehicleMobilizationState = 0 VehicleImmobilizeEvent 0 or 1 or 2 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent & VehicleUnsecureEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Read VehicleSecured + VehicleSecuredStatus + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent alongwith status signal set to implausible. + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read VehicleSecuredStatus VehicleSecured + + + +Expected Output: + +I. verified the following Event details is displayed or not displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent alongwith status signal set to SNA. + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Key in + Powermode state = 3 +2. Read VehicleSecuredStatus VehicleSecured + + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent alongwith status signal set to implausible. + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Set VehicleSecured = 1 + VehicleSecuredStatus = 0 + +Test Procedure: +1. Set the Power Mode asTransport Park + Powermode state = 2 +2. Read VehicleSecuredStatus VehicleSecured + + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent alongwith status signal set to SNA. + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Set VehicleSecured = 1 + VehicleSecuredStatus = 0 + +Test Procedure: +1. Set the Power Mode as awake + Powermode state = 1 +2. Read VehicleSecuredStatus VehicleSecured + + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Read VehicleLockState + VehicleLockStateStatus + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read VehicleLockStateStatus VehicleLockState + + +Expected Output: +I. verified the following Event details is displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as key in + Powermode state = 3 +2. Read VehicleLockStateStatus VehicleLockState + +Expected Output: +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Transport Park + Powermode state = 2 +2. Read VehicleLockState + VehicleLockStateStatus + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode asAwake + Powermode state = 1 +2.Read VehicleLockStateStatus VehicleLockState + + +Expected Output: +I. verified the following Event details or not displayed is displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Ign on + Powermode state = 6 +2. Raed VehicleLockStateStatus + VehicleLockState + +Expected Output: +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleUnlockEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Locked state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read VehicleLockState + VehicleLockStateStatus + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as crank + Powermode state = 9 +2. Read VehicleLockStateStatus VehicleLockState + + +Expected Output: +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 it should be updated on cloud then VehicleSecureEvent is 0 or 1 + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. SharedLocationReq from HU keypad + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. SharedLocationReq from HU keypad + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. SharedLocationReq from HU keypad + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. SharedLocationReq from phonebook + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. SharedLocationReq from phonebook + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. SharedLocationReq from phonebook + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 + +2. Read the Below signals from BCM + TailgateState + TailgateStateStatus + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - Tailgate open alert (TailgateOpenAlert) shall be activated or not activated in Cloud + + II.If TailGateStatus=0 then Tailgate open alert is 0 or 1 and it should be updated in cloud + +III. verified the TailgateOpenAlert is display or not displayed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 + +2. Read the Below signals from BCM + TailgateState + TailgateStateStatus + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - Tailgate open alert (TailgateOpenAlert) shall be activated or not activated in Cloud + + II.If TailGateStatus=0 then Tailgate open alert is 0 or 1 and it should be updated in cloud + +III. verified the TailgateOpenAlert is displaying or not displayed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 + +2. Read the Below signals from BCM + TailgateState + TailgateStateStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - Tailgate open alert (TailgateOpenAlert) shall be activated or not activated in Cloud + + II.If TailGateStatus=0 then Tailgate open alert is 0 or 1 and it should be updated in cloud + +III. verified the TailgateOpenAlert is displaying or not displayed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 + +2. Read the Below signals from BCM + TailgateState + TailgateStateStatus + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - Tailgate open alert (TailgateOpenAlert) shall be activated or not activated in Cloud + + II.If TailGateStatus=0 then Tailgate open alert is 0 or 1 and it should be updated in cloud + +III. verified the TailgateOpenAlert is displaying or not displayed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 + +2. Read the Below signals from BCM + TailgateState + TailgateStateStatus + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - Tailgate open alert (TailgateOpenAlert) shall be activated or not activated in Cloud + + II.If TailGateStatus=0 then Tailgate open alert is 0 or 1 and it should be updated in cloud + +III. verified the TailgateOpenAlert is displaying or not displayed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 + +2. Read the Below signals from BCM + TailgateState + TailgateStateStatus + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - Tailgate open alert (TailgateOpenAlert) shall be activated or not activated in Cloud + + II.If TailGateStatus=0 then Tailgate open alert is 0 or 1 and it should be updated in cloud + +III. verified the TailgateOpenAlert is displaying or not displayed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 + +2. Read the Below signals from BCM + TailgateState + TailgateStateStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - Tailgate open alert (TailgateOpenAlert) shall be activated or not activated in Cloud + + II.If TailGateStatus=0 then Tailgate open alert is 0 or 1 and it should be updated in cloud + +III. verified the TailgateOpenAlert is displaying or not displayed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Awake + Powermode state = 1 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Transport Park + Powermode state = 2 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Kay in + Powermode state = 3 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Accessary + Powermode state = 4 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Accessary Delay + Powermode state = 5 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Ign on + Powermode state = 6 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Transport Drive + Powermode state = 7 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Run + Powermode state = 8 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Pre standby + Powermode state = 0 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activatrd in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Transport drive crank + Powermode state = 0xA + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displayin g or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode asAccessory Delay + Powermode state = 5 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Transport drive + Powermode state = 7 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode asRun + Powermode state = 8 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Awake + Powermode state = 1 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Transport park + Powermode state = 2 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Key in + Powermode state = 3 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode asAccessary + Powermode state = 4 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Accessary Delay + Powermode state =5 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Ign On Powermode state = 6 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Run + Powermode state = 8 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as crank + Powermode state = 9 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Transport Drive + Powermode state = 7 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Transport park + Powermode state = 2 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Key in + Powermode state = 3 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Accessary + Powermode state = 4 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Accessary Delay + Powermode state = 5 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Ing on + Powermode state = 6 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayedin the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as crank + Powermode state = 9 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as awake + Powermode state = 1 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activated in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Transport Park + Powermode state = 2 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activated in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as key in + Powermode state = 3 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activated in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Accessary + Powermode state = 4 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activted in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Accessary Delay + Powermode state = 5 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activated in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Ign on + Powermode state = 6 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activated in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activated in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as crank + Powermode state = 9 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activated in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 on cloud then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Hazard Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hazard Lamp is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Active Ignition ON + Powermode state = 6 + 2. Read Below signals from BCM + HazardLampState + HazardLampStateStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HazardLampAlert + +II.If Hazardlampstatus = 0 +then HazardLampAlert = 0 or 1 should be updated in the cloud + + +III. Check whether the HazardLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Hazard Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hazard Lamp is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 + 2. Read Below signals from BCM + HazardLampState + HazardLampStateStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HazardLampAlert + +II.If Hazardlampstatus = 0 +then HazardLampAlert = 0 or 1 should be updated in the cloud + + +III. Check whether the HazardLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Hazard Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hazard Lamp is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state =9 + 2. Read Below signals from BCM + HazardLampState + HazardLampStateStatus + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HazardLampAlert + +II.If Hazardlampstatus = 0 +then HazardLampAlert = 0 or 1 should be updated in the cloud + + +III. Check whether the HazardLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Position Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Position Lamp is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 + 2. Read the Below signals from BCM + PositionLmpTelltale + PositionLmpTelltaleStatus + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - PositionLampAlert + +II. If PositionLmpTelltale status = 0 +then PostionLampAlert = 0 or 1 should be updated in the cloud + +III. Check whether the PositionLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Position Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Position Lamp is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 + 2. Read the Below signals from BCM + PositionLmpTelltale + PositionLmpTelltaleStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - PositionLampAlert + +II. If PositionLmpTelltale status = 0 +then PostionLampAlert = 0 or 1 should be updated in the cloud + +III. Check whether the PositionLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Position Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Position Lamp is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 + 2. Read the Below signals from BCM + PositionLmpTelltale + PositionLmpTelltaleStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - PositionLampAlert + +II. If PositionLmpTelltale status = 0 +then PostionLampAlert = 0 or 1 should be updated in the cloud + +III. Check whether the PositionLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +Test casse to analyse the behaviour of TCM on receiving the alert active condition of 'RTIC Alert' + + + +Pre-condition: +1) TCM is in the authorized state. +2) TCM with a functioning SIM +3) TCM SIM card have sufficient network strength + + +Test Procedure: +Bosch test report to be referred for test procedure + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RTIC Alert + b. Telemetry Record Element - RTIcEvent + + + +II. verified the RTIC Alert is detected in the Mobile App after timer Expiry. + +======================================== + +======================================== + +Test Description: +To test that Telematics shall start recording and exporting of all ignition ON alerts with a 6s delay post ignition ON + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)No Mobile Network +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set powerModeState = 6 (Ignition ON) +2. Set below paramets values + TransmissionFaultAlert =1 + HVBatteryTemperatureHighAlert =1 + HVBatteryLowChargeAlert=1 + ABSESPMalfunctionAlert=1 + EPASAlert=1 + AirbagECuMalfunctionAlert =1 + HVBatteryTemperatureHighAlert=1 + DriveMotorMalfunctionAlert=1 + HVBatteryHealthAlert=1 + HHcStatusAlert=1 + HDcStatusAlert=1 + VCUMalfunctionAlert=1 + + +Expected Output: +verified that following alerts are observed on cloud post 6 S of Ignition ON: + TransmissionFaultAlert + HVBatteryTemperatureHighAlert + HVBatteryLowChargeAlert + ABSESPMalfunctionAlert + EPASAlert + AirbagECuMalfunctionAlert + HVBatteryTemperatureHighAlert + DriveMotorMalfunctionAlert + HVBatteryHealthAlert + HHcStatusAlert + HDcStatusAlert + VCUMalfunctionAlert + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Key in Car status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Key is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Read the below signals from PEPS + PEPsKeyInState + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - KeyInCarAlert + +II. If PEPsKeyInState = 0 +then KeyInStateAlert = 0 should be updated in the cloud. + +III. If PEPsKeyInState = 1 +then KeyInStateAlert = 1 should be updated in cloud. + +IV. Verify KeyInCarAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Key in Car status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Key is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the below signals from PEPS + PEPsKeyInState + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - KeyInCarAlert + +II. If PEPsKeyInState = 0 +then KeyInStateAlert = 0 should be updated in the cloud. + +III. If PEPsKeyInState = 1 +then KeyInStateAlert = 1 should be updated in cloud. + +IV. Verify KeyInCarAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Key in Car status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Key is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the below signals from PEPS + PEPsKeyInState + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - KeyInCarAlert + +II. If PEPsKeyInState = 0 +then KeyInStateAlert = 0 should be updated in the cloud. + +III. If PEPsKeyInState = 1 +then KeyInStateAlert = 1 should be updated in cloud. + +IV. Verify KeyInCarAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Low Beam Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Read the Below signals from BCM +LowBeamTelltale status = 0 +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 + 2. Read the Below signals from BCM + LowBeamTelltale + + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LowBeamAlert + +II. If LowBeamTelltale status = 0 +then LowBeamLampAlert = 0 or 1 should be updated in the cloud + +III. Check whether the LowBeamAlert is not detected in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Low Beam Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Read the Below signals from BCM +LowBeamTelltale status = 0 +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 + 2. Read the Below signals from BCM + LowBeamTelltale + + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LowBeamAlert + +II. If LowBeamTelltale status = 0 +then LowBeamLampAlert = 0 or 1 should be updated in the cloud + +III. Check whether the LowBeamAlert is not detected in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Low Beam Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Read the Below signals from BCM +LowBeamTelltale status = 0 +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 + 2. Read the Below signals from BCM + LowBeamTelltale + + + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LowBeamAlert + +II. If LowBeamTelltale status = 0 +then LowBeamLampAlert = 0 or 1 should be updated in the cloud + +III. Check whether the LowBeamAlert is not detected in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Approach Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Read the Below signals from BCM +ApproachLampStatus=0 +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 + 2. Read the Below signals from BCM + ApprochLampState + + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - ApproachLampOnAlert + +II. If ApproachLampStatus = 0 +then ApproachLampOnAlert = 0 or 1 should be updated in the cloud + +III. Check whether the ApproachLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Approach Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Read the Below signals from BCM +ApproachLampStatus=0 +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 + 2. Read the Below signals from BCM + ApprochLampState + + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - ApproachLampOnAlert + +II. If ApproachLampStatus = 0 +then ApproachLampOnAlert = 0 or 1 should be updated in the cloud + +III. Check whether the ApproachLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Approach Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Read the Below signals from BCM +ApproachLampStatus=0 +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 + 2. Read the Below signals from BCM + ApprochLampState + + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - ApproachLampOnAlert + +II. If ApproachLampStatus = 0 +then ApproachLampOnAlert = 0 or 1 should be updated in the cloud + +III. Check whether the ApproachLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. + + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + VehSpdIC = 0 + ICDispSpeedSig = 0 + ICDispSpeedSigStatus = 0 + VehSpdICStatus = 0 + EngSpd != 0 + + + + +Expected Output: + +I. verified the following details in the Cloud: + Telemetry Record Element - VehicleIdleAlert + + + +II. verified the VehicleIdleAlert is detected in the Mobile App after timer Expiry. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. + + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + VehSpdIC = 0 + ICDispSpeedSig = 0 + ICDispSpeedSigStatus = 0 + VehSpdICStatus = 0 + EngSpd != 0 + + + + +Expected Output: + +I. verified the following details in the Cloud: + Telemetry Record Element - VehicleIdleAlert + + + +II. verified the VehicleIdleAlert is detected in the Mobile App after timer Expiry. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. + + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + VehSpdIC = 0 + ICDispSpeedSig = 0 + ICDispSpeedSigStatus = 0 + VehSpdICStatus = 0 + EngSpd != 0 + + + + +Expected Output: + +I. verified the following details in the Cloud: + Telemetry Record Element - VehicleIdleAlert + + + +II. verified the VehicleIdleAlert is detected in the Mobile App after timer Expiry. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect Tow Away condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Simulate a Tow Away condition + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - TowAway/unauthorizedMovementAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. verified the TowAway/unauthorizedMovementAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect Tow Away condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Simulate a Tow Away condition + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - TowAway/unauthorizedMovementAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. verified the TowAway/unauthorizedMovementAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect Tow Away condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Simulate a Tow Away condition + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - TowAway/unauthorizedMovementAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. verified the TowAway/unauthorizedMovementAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect parking Collision condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Simulate a Parking Collison + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ParkingCollisionAlert + +II. verified the ParkingCollisionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect parking Collision condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 8 +2. Simulate a Parking Collison + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ParkingCollisionAlert + +II. verified the ParkingCollisionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect parking Collision condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 9 +2. Simulate a Parking Collison + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ParkingCollisionAlert + +II. verified the ParkingCollisionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of eCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Press Hardpress button to initiate bcall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - bCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of eCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Press Hardpress button to initiate bcall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - bCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of bCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Press Hardpress button to initiate bcall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - bCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of eCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Press Softpress button through tata assist to initiate bcall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - bCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of eCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Press Softpress button through tata assist to initiate bcall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - bCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of bCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Press Softpress button through tata assist to initiate bcall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - bCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of eCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Press hardpress button to initiate ecall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - eCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of eCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Press hardpress button to initiate ecall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - eCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of bCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Press hardpress button to initiate ecall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - eCallEvent + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect Device Tampering condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Simulate a Device Tampering Condition + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - DeviceTamperingAlert + +II. verified the DeviceTamperingAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect Device Tampering condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Simulate a Device Tampering Condition + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - DeviceTamperingAlert + +II. verified the DeviceTamperingAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect Device Tampering condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Simulate a Device Tampering Condition + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - DeviceTamperingAlert + +II. verified the DeviceTamperingAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA BrakeFluidAlert is detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2.Read the Below signals from IPC + IcHuBrakeFluidLowState +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert + +II If IcHuBrakeFluidLowState = 0 Then + BrakeFluidAlert = 0 Should be updated in cloud It should NAt generate any alert + +III If IcHuBrakeFluidLowState Is = 1 or 2 + BrakeFluidAlert = 1 or 2 Should be updated in cloud. It should generate alert + +IV. verified BrakeFluidAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA BrakeFluidAlert is detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2.Read the Below signals from IPC + IcHuBrakeFluidLowState +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert + +II If IcHuBrakeFluidLowState = 0 Then + BrakeFluidAlert = 0 Should be updated in cloud It should NAt generate any alert + +III If IcHuBrakeFluidLowState Is = 1 or 2 + BrakeFluidAlert = 1 or 2 Should be updated in cloud. It should generate alert + +IV. verified BrakeFluidAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low brake fluid alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA BrakeFluidAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Read the Below signals from IPC + IcHuBrakeFluidLowState +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrakeFluidAlert + +II If IcHuBrakeFluidLowState = 0 Then + BrakeFluidAlert = 0 Should be updated in cloud It should NAt generate any alert + +III If IcHuBrakeFluidLowState Is = 1 or 2 + BrakeFluidAlert = 1 or 2 Should be updated in cloud. It should generate alert + +IV. verified BrakeFluidAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Pre-Standby + Powermode state = 0 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Park + Powermode state = 2 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Drive + Powermode state = 7 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for KeyBatteryLowLevelAlert from PEPS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA KeyBatteryLowLevelAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from PEPS + LowBatUIdMsg +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - KeyBatteryLowLevelAlert + +II If the LowBatUIdMsg = 0 + Then KeyBatteryLowLevelAlert Should NAt be displayed on HU and IPC + +III If the LowBatUIdMsg = 1 + Then KeyBatteryLowLevelAlert Should be displayed on HU and IPC + +II. verified KeyBatteryLowLevelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Next service Due Alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Next service Due Alert is detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from IPC NextServDueAlertStatus +NextServDueAlert +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + +II If NextServDueAlertStatus = 2 + Then ServiceReminderAlert = 0 or 1 Should be Updated in cloud + +III If NextServDueAlertStatus =0 + Then ServiceReminderAlert = 4 Should be Updated in cloud + + + +II. verified the ServiceReminderAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Next service Due Alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Next service Due Alert is detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from IPC NextServDueAlertStatus +NextServDueAlert +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + +II If NextServDueAlertStatus = 2 + Then ServiceReminderAlert = 0 or 1 Should be Updated in cloud + +III If NextServDueAlertStatus =0 + Then ServiceReminderAlert = 4 Should be Updated in cloud + + + +II. verified the ServiceReminderAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Next service Due Alert from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Next service Due Alert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from IPC NextServDueAlertStatus +NextServDueAlert +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ServiceReminderAlert + +II If NextServDueAlertStatus = 2 + Then ServiceReminderAlert = 0 or 1 Should be Updated in cloud + +III If NextServDueAlertStatus =0 + Then ServiceReminderAlert = 4 Should be Updated in cloud + + + +II. verified the ServiceReminderAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for EPAS Alert from EPAS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)NA Next EPASAlert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from EPAS + EPAsStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - EPASAlert + +II. If the EPAsStatus = 0 + EPASAlert = 0 Should be updated in cloud + +III. If the EPAsStatus = 2 + EPASAlert = 2 Should be updated in cloud + +III. If the EPAsStatus = 1 Or 3 + EPASAlert = 4 Should be updated in cloud +II. verified the EPASAlert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for EPAS Alert from EPAS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)NA Next EPASAlert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from EPAS + EPAsStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - EPASAlert + +II. If the EPAsStatus = 0 + EPASAlert = 0 Should be updated in cloud + +III. If the EPAsStatus = 2 + EPASAlert = 2 Should be updated in cloud + +III. If the EPAsStatus = 1 Or 3 + EPASAlert = 4 Should be updated in cloud +II. verified the EPASAlert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for EPAS Alert from EPAS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)NA Next EPASAlert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from EPAS + EPAsStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - EPASAlert + +II. If the EPAsStatus = 0 + EPASAlert = 0 Should be updated in cloud + +III. If the EPAsStatus = 2 + EPASAlert = 2 Should be updated in cloud + +III. If the EPAsStatus = 1 Or 3 + EPASAlert = 4 Should be updated in cloud +II. verified the EPASAlert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Crash is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from SRS + CrashoutputSignal + +3. Check whether NArmal Alert is detected in Cloud + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashAlert + b. Telemetry Record Element - CrashEvent + C. Telemetry Record Element - eCallEvent + +II If the CrashoutputSignal = 0 + Then CrashAlert = 0 Should be updated in cloud + +III If the CrashoutputSignal = 1 + Then CrashAlert = 1 Should be updated in cloud + +IV If the CrashoutputSignal = 2 + Then CrashAlert = 2 Should be updated in cloud + +V If the CrashoutputSignal = 4 + Then CrashAlert = 4 Should be updated in cloud + +VI If the CrashoutputSignal = 8 + Then CrashAlert = 8 Should be updated in cloud + +VII If the CrashoutputSignal = 10 + Then CrashAlert = 10 Should be updated in cloud + VIII. verifiey Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Crash is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from SRS + CrashoutputSignal + +3. Check whether NArmal Alert is detected in Cloud + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashAlert + b. Telemetry Record Element - CrashEvent + C. Telemetry Record Element - eCallEvent + +II If the CrashoutputSignal = 0 + Then CrashAlert = 0 Should be updated in cloud + +III If the CrashoutputSignal = 1 + Then CrashAlert = 1 Should be updated in cloud + +IV If the CrashoutputSignal = 2 + Then CrashAlert = 2 Should be updated in cloud + +V If the CrashoutputSignal = 4 + Then CrashAlert = 4 Should be updated in cloud + +VI If the CrashoutputSignal = 8 + Then CrashAlert = 8 Should be updated in cloud + +VII If the CrashoutputSignal = 10 + Then CrashAlert = 10 Should be updated in cloud + VIII. verifiey Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Crash output signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Crash is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from SRS + CrashoutputSignal + +3. Check whether NArmal Alert is detected in Cloud + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - CrashAlert + b. Telemetry Record Element - CrashEvent + C. Telemetry Record Element - eCallEvent + +II If the CrashoutputSignal = 0 + Then CrashAlert = 0 Should be updated in cloud + +III If the CrashoutputSignal = 1 + Then CrashAlert = 1 Should be updated in cloud + +IV If the CrashoutputSignal = 2 + Then CrashAlert = 2 Should be updated in cloud + +V If the CrashoutputSignal = 4 + Then CrashAlert = 4 Should be updated in cloud + +VI If the CrashoutputSignal = 8 + Then CrashAlert = 8 Should be updated in cloud + +VII If the CrashoutputSignal = 10 + Then CrashAlert = 10 Should be updated in cloud + VIII. verifiey Crash Alert is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ABS status Alert from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA ABSESPMalfunction Alert, + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from ABS/ESP + ABsStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ABSESPMalfunction + +II If the ABsStatus = 0 + Then ABSESPMalfunctionAlert = 0 Should be updated in cloud + +III If the ABsStatus = 1 + Then ABSESPMalfunctionAlert = 4 Should be updated in cloud + +IV If the ABsStatus = 2 + Then ABSESPMalfunctionAlert = 2 Should be updated in cloud + +V If the ABsStatus = 3 + Then ABSESPMalfunctionAlert = 4 Should be updated in cloud +II. verified the ABsStatus Alert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ABS status Alert from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA ABSESPMalfunction Alert, + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from ABS/ESP + ABsStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ABSESPMalfunction + +II If the ABsStatus = 0 + Then ABSESPMalfunctionAlert = 0 Should be updated in cloud + +III If the ABsStatus = 1 + Then ABSESPMalfunctionAlert = 4 Should be updated in cloud + +IV If the ABsStatus = 2 + Then ABSESPMalfunctionAlert = 2 Should be updated in cloud + +V If the ABsStatus = 3 + Then ABSESPMalfunctionAlert = 4 Should be updated in cloud +II. verified the ABsStatus Alert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ABS status Alert from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA ABSESPMalfunction Alert, + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from ABS/ESP + ABsStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - ABSESPMalfunction + +II If the ABsStatus = 0 + Then ABSESPMalfunctionAlert = 0 Should be updated in cloud + +III If the ABsStatus = 1 + Then ABSESPMalfunctionAlert = 4 Should be updated in cloud + +IV If the ABsStatus = 2 + Then ABSESPMalfunctionAlert = 2 Should be updated in cloud + +V If the ABsStatus = 3 + Then ABSESPMalfunctionAlert = 4 Should be updated in cloud +II. verified the ABsStatus Alert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Intrusion Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from BCM + IntrusionInfoState + IntrusionInfoStateStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent + +II If the IntrusionInfoStateStatus = 0 + Then IntrusionAlert = 0 or 1 Should be updated in cloud + +III. verified the IntrusionAlert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Pre-Standby + Powermode state = 0 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery health alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattSoh is NAt detected, + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + HvBattSoh +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - HVBatteryHealthAlert +II If the HvBattSoh = 0 + HVBatteryHealthAlert = 0 Should be updated in cloud + +III II If the HvBattSoh = 1 + HVBatteryHealthAlert = 1 Should be updated in cloud + +II. verified HVBatteryHealthAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state =A +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Over voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Over Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state =B +2. Set the Below signals from VCU + HvBattOverVoltAlert + HvBattOverVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryOverVoltageAlert + +II If HvBattOverVoltAlertStatus = 0 + Then HVBatteryOverVoltageAlert = 0,1,2,3, Should be updated in cloud + III. verified the HVBatteryOverVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state =5 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state =7 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Under voltage alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Under Voltage Fault is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + HvBattUnderVoltAlert + HvBattUnderVoltAlertStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryUnderVoltageAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryUnderVoltageAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature High alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureHighAlert + +II If HvBattUnderVoltAlertStatus = 0 + Then HVBatteryTemperatureHighAler = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HV battery Temperature Low alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HV Battery Temperature low Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + HvBattUnderTempAlert +HvBattUnderTempAlertStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is detected in the Cloud: + a. Telemetry Record Element - HVBatteryTemperatureLowAlert + +II If HvBattUnderTempAlertStatus = 0 + Then HVBatteryTemperatureLowAlert = 0,1,2,3, Should be updated in cloud + + III. verified the HVBatteryunderVoltageAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Set the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 +HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 +HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 +HVBatteryLowChargeAlert = 2 Should be updated in cloud + + +V. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 +HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 +HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 +HVBatteryLowChargeAlert = 2 Should be updated in cloud + + +V. verified HVBatteryLowChargeAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low HV battery Charge alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hvbattery Charge Alert is NAt detected + + + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + LowHVBatteryCharge + +3. Check whether NArmal Alert is removed in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HVBatteryLowChargeAlert + +II If LowHVBatteryCharge = 0 + Then HVBatteryLowChargeAlert = 0 Should be updated in cloud + +III If LowHVBatteryCharge = 1 + Then HVBatteryLowChargeAlert = 1 Should be updated in cloud + +IV If LowHVBatteryCharge = 2 + Then HVBatteryLowChargeAlert = 2 Should be updated in cloud + +V. verified HVBatteryLowChargeAlert is Displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is NArmal + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + IntakeChargerHighTemp + IntakeChargerHighTempStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + + + +II if IntakeChargerHighTempStatus = 0 +then IntakeChargerHighAlert = 0 or 1 should be updated on cloud + + +III. verified the IntakeChargerTemperatureHighAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is NArmal + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + IntakeChargerHighTemp + IntakeChargerHighTempStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + + + +II if IntakeChargerHighTempStatus = 0 +then IntakeChargerHighAlert = 0 or 1 should be updated on cloud + + +III. verified the IntakeChargerTemperatureHighAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intake charger high temperature alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Intake charger temperature is NArmal + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + IntakeChargerHighTemp + IntakeChargerHighTempStatus + +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - IntakeChargerTemperatureHighAlert + + + +II if IntakeChargerHighTempStatus = 0 +then IntakeChargerHighAlert = 0 or 1 should be updated on cloud + + +III. verified the IntakeChargerTemperatureHighAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Prestandby + Powermode state = 0 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for VCU Malfunction alert from VCU + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA VCU malfunction is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + VCuStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - VCUMalfunctionAlert + +II. If VcuStatus = 0 +then VCUMalfunctionAlert = 0 should be updated in cloud + +III. If VcuStatus = 1 +then VCUMalfunctionAlert = 1 should be updated in cloud + +IV. verified the VCUMalfunctionAlert is is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Drive Motor Malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA malfunction is detected in DriveMotor + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + DriveMotorStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - DriveMotorMalfunctionAlert + +II If DriveMotorStatus = 0 + DriveMotorMalfunctionAlert = 0 Should be updated in cloud + +III II If DriveMotorStatus = 1 + DriveMotorMalfunctionAlert = 1 hould be updated in cloud + +II. verified the DriveMotorMalfunctionAlert is displayed OR NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Ac compressor malfunction alert from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Malfunction is detected in the AC Compressor + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Set the Below signals from VCU + AcComprMalFn +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - + ElectricACCompressorMalfunctionAlert + +II If AcComprMalFn = 0 + Then ElectricACCompressorMalfunctionAlert = 0 Should be updated in cloud + +III II If AcComprMalFn = 1 + Then ElectricACCompressorMalfunctionAlert = 1 Should be updated in cloud + +II. verified the ElectricACCompressorMalfunctionAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvChargerConnectedAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HV charger Alert is detected, + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + HVChargerConnected +HVChargerConnectedStatus +3. Check whether NArmal Alert is detected Or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - HvChargerConnectedAlert + ChargerConnectedEvent + +II If HVChargerConnectedStatus = 0 + Then HvChargerConnectedAlert =1 Or 2 Should be updated in cloud + + +III. verified the HvChargerConnectedAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Vehicle LV battery Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 6 +2. Set the Below signals from VCU + LowLVBatteryCharge + LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - Vehicle LV battery Alert + b. Telemetry Record Element - EngineStartEvent + +II If LowLVBatteryChargeStatus = 0 + Then Vehicle LV battery Alert =1 OR 2 Should be updated on cloud + +II. verified the Vehicle LV battery Alert is displayed OR NAT in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Vehicle LV battery Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from VCU + LowLVBatteryCharge + LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - Vehicle LV battery Alert + b. Telemetry Record Element - EngineStartEvent + +II If LowLVBatteryChargeStatus = 0 + Then Vehicle LV battery Alert =1 OR 2 Should be updated on cloud + +II. verified the Vehicle LV battery Alert is displayed OR NAT in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Vehicle LV battery Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Vehicle LV battery Alert is detected, + LowLVBatteryCharge = 0 + LowLVBatteryChargeStatus = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from VCU + LowLVBatteryCharge + LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - Vehicle LV battery Alert + b. Telemetry Record Element - EngineStartEvent + +II If LowLVBatteryChargeStatus = 0 + Then Vehicle LV battery Alert =1 OR 2 Should be updated on cloud + +II. verified the Vehicle LV battery Alert is displayed OR NAT in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftFrontTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 4 +2. Read the Below signals from TPMS1 + HighTirePresAlertFL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II If HighTirePresAlertFL = 0 + Then LeftFrontTyrePressureAlert = 0 Should be updated in cloud + +III II If HighTirePresAlertFL = 1 + Then LeftFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftFrontTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS1 + HighTirePresAlertFL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II If HighTirePresAlertFL = 0 + Then LeftFrontTyrePressureAlert = 0 Should be updated in cloud + +III II If HighTirePresAlertFL = 1 + Then LeftFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftFrontTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS1 + HighTirePresAlertFL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II If HighTirePresAlertFL = 0 + Then LeftFrontTyrePressureAlert = 0 Should be updated in cloud + +III II If HighTirePresAlertFL = 1 + Then LeftFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftFrontTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 9 +2. Read the Below signals from TPMS1 + HighTirePresAlertFL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II If LowTirePresAlertFL = 0 + Then LeftFrontTyrePressureAlert = 0 Should be updated in cloud + +III II If LowTirePresAlertFL = 1 + Then LeftFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftFrontTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS1 + HighTirePresAlertFL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II If LowTirePresAlertFL = 0 + Then LeftFrontTyrePressureAlert = 0 Should be updated in cloud + +III II If LowTirePresAlertFL = 1 + Then LeftFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftFrontTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS1 + HighTirePresAlertFL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II If LowTirePresAlertFL = 0 + Then LeftFrontTyrePressureAlert = 0 Should be updated in cloud + +III II If LowTirePresAlertFL = 1 + Then LeftFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftRearTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from TPMS1 + HighTirePresAlertRL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II If HighTirePresAlertRL = 0 + Then LeftRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertFL = 1 + Then LeftRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftRearTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftRearTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS1 + HighTirePresAlertRL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II If HighTirePresAlertRL = 0 + Then LeftRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertFL = 1 + Then LeftRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftRearTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftRearTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS1 + HighTirePresAlertRL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II If HighTirePresAlertRL = 0 + Then LeftRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertFL = 1 + Then LeftRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftRearTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftRearTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS1 + LowTirePresAlertRL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II If LowTirePresAlertRL = 0 + Then LeftRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertRL= 1 + Then LeftRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftRearTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftRearTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from TPMS1 + LowTirePresAlertRL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II If LowTirePresAlertRL = 0 + Then LeftRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertRL= 1 + Then LeftRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftRearTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LeftRearTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS1 + LowTirePresAlertRL +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II If LowTirePresAlertRL = 0 + Then LeftRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertRL= 1 + Then LeftRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the LeftRearTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightFrontTyrePressureAlert signal + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS1 + HighTirePresAlertFR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II If HighTirePresAlertFR = 0 + Then RightFrontTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertFR= 1 + Then RightFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightFrontTyrePressureAlert signal + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from TPMS1 + HighTirePresAlertFR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II If HighTirePresAlertFR = 0 + Then RightFrontTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertFR= 1 + Then RightFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightFrontTyrePressureAlert signal + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS1 + HighTirePresAlertFR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II If HighTirePresAlertFR = 0 + Then RightFrontTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertFR= 1 + Then RightFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightFrontTyrePressureAlert signal + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS1 +LowTirePresAlertFR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II If LowTirePresAlertFR = 0 + Then RightFrontTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertFR= 1 + Then RightFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightFrontTyrePressureAlert signal + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from TPMS1 +LowTirePresAlertFR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II If LowTirePresAlertFR = 0 + Then RightFrontTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertFR= 1 + Then RightFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS1 + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightFrontTyrePressureAlert signal + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS1 +LowTirePresAlertFR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II If LowTirePresAlertFR = 0 + Then RightFrontTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertFR= 1 + Then RightFrontTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightRearTyrePressureAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State 6 +2. Read the Below signals from TPMS + HighTirePresAlertRR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II If HighTirePresAlertRR = 0 + Then RightRearTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertRR= 1 + Then RightRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightRearTyrePressureAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS + HighTirePresAlertRR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II If HighTirePresAlertRR = 0 + Then RightRearTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertRR= 1 + Then RightRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightRearTyrePressureAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS + HighTirePresAlertRR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II If HighTirePresAlertRR = 0 + Then RightRearTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertRR= 1 + Then RightRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightRearTyrePressureAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State 6 +2. Read the Below signals from TPMS + HighTirePresAlertRR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II If LowTirePresAlertRR = 0 + Then RightRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertRR= 1 + Then RightRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightRearTyrePressureAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State 8 +2. Read the Below signals from TPMS + HighTirePresAlertRR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II If LowTirePresAlertRR = 0 + Then RightRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertRR= 1 + Then RightRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA RightRearTyrePressureAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State 9 +2. Read the Below signals from TPMS + HighTirePresAlertRR +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightRearTyrePressureAlert + +II If LowTirePresAlertRR = 0 + Then RightRearTyrePressureAlert = 0 Should be updated in cloud + +III If LowTirePresAlertRR= 1 + Then RightRearTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the RightFrontTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA SpareTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from TPMS + HighTirePresAlertSpare +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II If HighTirePresAlertSpare= 0 + Then SpareTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertSpare= 1 + Then SpareTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the SpareTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA SpareTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from TPMS + HighTirePresAlertSpare +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II If HighTirePresAlertSpare= 0 + Then SpareTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertSpare= 1 + Then SpareTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the SpareTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA SpareTyrePressureAlert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from TPMS + HighTirePresAlertSpare +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II If HighTirePresAlertSpare= 0 + Then SpareTyrePressureAlert = 0 Should be updated in cloud + +III If HighTirePresAlertSpare= 1 + Then SpareTyrePressureAlert = 1 Should be updated in cloud + +IV. verified the SpareTyrePressureAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Low fuel Alert is detected or NAt in cloud + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State =6 +2. Read the Below signals from IPC + LowFuelOutputIC +LowFuelOutputICStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II If LowFuelOutputICStatus = 0 + Then Low fuel alert = 0 or 1 Should be updated in cloud + +III. verified the Low fuel alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Low fuel Alert is detected or NAt in cloud + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from IPC + LowFuelOutputIC +LowFuelOutputICStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II If LowFuelOutputICStatus = 0 + Then Low fuel alert = 0 or 1 Should be updated in cloud + +III. verified the Low fuel alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Low fuel Alert is detected or NAt in cloud + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from IPC + LowFuelOutputIC +LowFuelOutputICStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II If LowFuelOutputICStatus = 0 + Then Low fuel alert = 0 or 1 Should be updated in cloud + +III. verified the Low fuel alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Engine malfunction Alert signal from EMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Engine Malfunction Alert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from EMS + MiLampState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Engine Malfunction Alert + +II If MiLampState = 0 +Then Engine Malfunction Alert=0 Should be updated in cloud + +III If MiLampState = 1 +Then Engine Malfunction Alert=1 Should be updated in cloud + +IV If MiLampState = 2 +Then Engine Malfunction Alert=2 Should be updated in cloud + +II. verified the Engine Malfunction Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Engine Oil Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Engine Oil Alert Alert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from IPC + IcHuEngineOilPressureLowState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Engine Oil Alert + +II If IcHuEngineOilPressureLowState = 0 +Then Engine Oil Alert=0 Should be updated in cloud + +III If IcHuEngineOilPressureLowState = 1 +Then Engine Oil =1 Should be updated in cloud + +IV IcHuEngineOilPressureLowState = 2 +Then Engine Oil Alert=2 Should be updated in cloud + +V. verified the EnEngine Oil Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHHcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HHcStatusAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from ABS/ESP + HHcStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HHcStatusAlert + +II If HHcStatus =0 + HHcStatusAlert = 0 Should be updated in cloud + +III If HHcStatus = 2 + HHcStatusAlert = 2 Should be updated in cloud + +IV If HHcStatus = 3 + HHcStatusAlert = 3 Should be updated in cloud +V . verified the HHcStatusAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHHcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HHcStatusAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from ABS/ESP + HHcStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HHcStatusAlert + +II If HHcStatus =0 + HHcStatusAlert = 0 Should be updated in cloud + +III If HHcStatus = 2 + HHcStatusAlert = 2 Should be updated in cloud + +IV If HHcStatus = 3 + HHcStatusAlert = 3 Should be updated in cloud +V . verified the HHcStatusAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHHcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HHcStatusAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from ABS/ESP + HHcStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HHcStatusAlert + +II If HHcStatus =0 + HHcStatusAlert = 0 Should be updated in cloud + +III If HHcStatus = 2 + HHcStatusAlert = 2 Should be updated in cloud + +IV If HHcStatus = 3 + HHcStatusAlert = 3 Should be updated in cloud +V . verified the HHcStatusAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHDcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HDcStatusAlert is detected, + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from ABS/ESP + HDcStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HDcStatusAlert + +II If HHcStatus =0 + HDcStatusAlert = 0 Should be updated in cloud + +III If HHcStatus = 1 + HDcStatusAlert = 1 Should be updated in cloud + +IV If HHcStatus = 2 + HDcStatusAlert = 2 Should be updated in cloud +V . verified the HHcStatusAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHDcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HDcStatusAlert is detected, + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from ABS/ESP + HDcStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HDcStatusAlert + +II If HHcStatus =0 + HDcStatusAlert = 0 Should be updated in cloud + +III If HHcStatus = 1 + HDcStatusAlert = 1 Should be updated in cloud + +IV If HHcStatus = 2 + HDcStatusAlert = 2 Should be updated in cloud +V . verified the HHcStatusAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition forHDcStatusAlert signal from ABS/ESP + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HDcStatusAlert is detected, + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from ABS/ESP + HDcStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HDcStatusAlert + +II If HHcStatus =0 + HDcStatusAlert = 0 Should be updated in cloud + +III If HHcStatus = 1 + HDcStatusAlert = 1 Should be updated in cloud + +IV If HHcStatus = 2 + HDcStatusAlert = 2 Should be updated in cloud +V . verified the HHcStatusAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Driver SeatBelt Alert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Set the Below signals from IPC + IcSbrDrvrSeatBeltSwitchStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + + +II If IcSbrDrvrSeatBeltSwitchStatus = 0 + Driver SeatBelt Alert = 0 Should be updated in cloud + +III If IcSbrDrvrSeatBeltSwitchStatus = 1 + Driver SeatBelt Alert = 1 Should be updated in cloud + +II. verified the Driver SeatBelt Alert is displayedor NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Driver SeatBelt Alert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from IPC + IcSbrDrvrSeatBeltSwitchStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + + +II If IcSbrDrvrSeatBeltSwitchStatus = 0 + Driver SeatBelt Alert = 0 Should be updated in cloud + +III If IcSbrDrvrSeatBeltSwitchStatus = 1 + Driver SeatBelt Alert = 1 Should be updated in cloud + +II. verified the Driver SeatBelt Alert is displayedor NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Driver SeatBelt Alert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + IcSbrDrvrSeatBeltSwitchStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + + +II If IcSbrDrvrSeatBeltSwitchStatus = 0 + Driver SeatBelt Alert = 0 Should be updated in cloud + +III If IcSbrDrvrSeatBeltSwitchStatus = 1 + Driver SeatBelt Alert = 1 Should be updated in cloud + +II. verified the Driver SeatBelt Alert is displayedor NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) CoDriverSeatbeltAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Set the Below signals from SRS + FrPassSBRIndication +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + + +II If FrPassSBRIndication = 0 + Driver SeatBelt Alert = 0 Should be updated in cloud + +III If FrPassSBRIndication = 1 + Driver SeatBelt Alert = 1 Should be updated in cloud + +II. verified the CoDriverSeatbeltAlert is displayedor NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) CoDriverSeatbeltAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from SRS + FrPassSBRIndication +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + + +II If FrPassSBRIndication = 0 + Driver SeatBelt Alert = 0 Should be updated in cloud + +III If FrPassSBRIndication = 1 + Driver SeatBelt Alert = 1 Should be updated in cloud + +II. verified the CoDriverSeatbeltAlert is displayedor NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) CoDriverSeatbeltAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from SRS + FrPassSBRIndication +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + + +II If FrPassSBRIndication = 0 + Driver SeatBelt Alert = 0 Should be updated in cloud + +III If FrPassSBRIndication = 1 + Driver SeatBelt Alert = 1 Should be updated in cloud + +II. verified the CoDriverSeatbeltAlert is displayedor NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for AirbagECuMalfunctionAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) AirbagECuMalfunctionAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Running + Powermode State = 8 +2. Read the Below signals from SRS + SRSWarningLamp +SRSWarningLampStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - AirbagECuMalfunctionAlert + +II If SRSWarningLampStatus = 0 +AirbagECuMalfunctionAlert = 0 Should be updated in cloud + +III If SRSWarningLampStatus = 1 +AirbagECuMalfunctionAlert = 1Should be updated in cloud + +II. verified the AirbagECuMalfunctionAlert is Displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for AirbagECuMalfunctionAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) AirbagECuMalfunctionAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from SRS + SRSWarningLamp +SRSWarningLampStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - AirbagECuMalfunctionAlert + +II If SRSWarningLampStatus = 0 +AirbagECuMalfunctionAlert = 0 Should be updated in cloud + +III If SRSWarningLampStatus = 1 +AirbagECuMalfunctionAlert = 1Should be updated in cloud + +II. verified the AirbagECuMalfunctionAlert is Displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for AirbagECuMalfunctionAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) AirbagECuMalfunctionAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from SRS + SRSWarningLamp +SRSWarningLampStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - AirbagECuMalfunctionAlert + +II If SRSWarningLampStatus = 0 +AirbagECuMalfunctionAlert = 0 Should be updated in cloud + +III If SRSWarningLampStatus = 1 +AirbagECuMalfunctionAlert = 1Should be updated in cloud + +II. verified the AirbagECuMalfunctionAlert is Displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Pre-Standby + Powermode State = 0 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode State = 2 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode State = 3 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode State = 7 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode State = A +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Motor High Temperature Alert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Motor High Temperature Alert is detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode State = B +2. Read the Below signals from VCU + MotorHighTempStatus + MotorHighTemp + + +Expected Output: + +I. verified that following details has NAt displayed in the Cloud: + a. Telemetry Record Element - Motor High Temperature Alert + +II If MotorHighTempStatus = 0 + Then Motor High Temperature Alert = 0,1,2 Shoild be updated in cloud + + III If MotorHighTempStatus = 2 + Then Motor High Temperature Alert = 5 Shoild be updated in cloud + +IV. verified the Motor High Temperature Alert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ForcePanicAlert signal from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ForcePanicAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Read the Below signals from BCM + ForcePanicStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ForcePanicAlert + +II If ForcePanicStatus = 0 + Then ForcePanicAlert = 0 Should be updated in cloud + +III If ForcePanicStatus = 1 + Then ForcePanicAlert = 1 Should be updated in cloud + + +IV. verified the ForcePanicAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)TransmissionFaultAlert is NAt detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from AMT/DCT +TransServiceIndication + +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II If TransServiceIndication = 0 + Then TransmissionFaultAlert = 0 Should be updated in cloud + +III If TransServiceIndication = 1 + Then TransmissionFaultAlert = 1 Should be updated in cloud + +III If TransServiceIndication = 2 + Then TransmissionFaultAlert = 2 Should be updated in cloud + +V. verified the TransmissionFaultAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)TransmissionFaultAlert is NAt detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from AMT/DCT +TransServiceIndication + +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II If TransServiceIndication = 0 + Then TransmissionFaultAlert = 0 Should be updated in cloud + +III If TransServiceIndication = 1 + Then TransmissionFaultAlert = 1 Should be updated in cloud + +IV If TransServiceIndication = 2 + Then TransmissionFaultAlert = 2 Should be updated in cloud + +V. verified the TransmissionFaultAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)TransmissionFaultAlert is NAt detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from AMT/DCT +TransServiceIndication + +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II If TransServiceIndication = 0 + Then TransmissionFaultAlert = 0 Should be updated in cloud + +III If TransServiceIndication = 1 + Then TransmissionFaultAlert = 1 Should be updated in cloud + +III If TransServiceIndication = 2 + Then TransmissionFaultAlert = 2 Should be updated in cloud + +IV. verified the TransmissionFaultAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)TransmissionFaultAlert is NAt detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from AMT/DCT +TransServiceIndicationDCT + +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II If TransServiceIndication = 0 + Then TransmissionFaultAlert = 0 Should be updated in cloud + +III If TransServiceIndicationDCT = 1 + Then TransmissionFaultAlert = 1 Should be updated in cloud + +Iv If TransServiceIndicationDCT = 2 + Then TransmissionFaultAlert = 2 Should be updated in cloud + +V. verified the TransmissionFaultAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)TransmissionFaultAlert is NAt detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from AMT/DCT +TransServiceIndicationDCT + +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II If TransServiceIndication = 0 + Then TransmissionFaultAlert = 0 Should be updated in cloud + +III If TransServiceIndicationDCT = 1 + Then TransmissionFaultAlert = 1 Should be updated in cloud + +Iv If TransServiceIndicationDCT = 2 + Then TransmissionFaultAlert = 2 Should be updated in cloud + +V. verified the TransmissionFaultAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for TransmissionFaultAlert signal from AMT/DCT + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)TransmissionFaultAlert is NAt detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from AMT/DCT +TransServiceIndicationDCT + +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - TransmissionFaultAlert + +II If TransServiceIndication = 0 + Then TransmissionFaultAlert = 0 Should be updated in cloud + +III If TransServiceIndicationDCT = 1 + Then TransmissionFaultAlert = 1 Should be updated in cloud + +Iv If TransServiceIndicationDCT = 2 + Then TransmissionFaultAlert = 2 Should be updated in cloud + +V. verified the TransmissionFaultAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ParkBrakeAlert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ParkBrakeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from IPC + ParkBrkState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeAlert + +II If ParkBrkState = 0 +Then ParkBrakeAlert = 0 Should be updated in cloud + +III If ParkBrkState = 1 +Then ParkBrakeAlert = 1 Should be updated in cloud + +IV. verified the ParkBrakeAlert is Detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ParkBrakeAlert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ParkBrakeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from IPC + ParkBrkState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeAlert + +II If ParkBrkState = 0 +Then ParkBrakeAlert = 0 Should be updated in cloud + +III If ParkBrkState = 1 +Then ParkBrakeAlert = 1 Should be updated in cloud + +IV. verified the ParkBrakeAlert is Detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for ParkBrakeAlert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) ParkBrakeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from IPC + ParkBrkState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ParkBrakeAlert + +II If ParkBrkState = 0 +Then ParkBrakeAlert = 0 Should be updated in cloud + +III If ParkBrkState = 1 +Then ParkBrakeAlert = 1 Should be updated in cloud + +IV. verified the ParkBrakeAlert is Detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Set the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode State = 0 +2. Set the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode State = 2 +2. Reead the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode State = 3 +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode State = 7 +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode State = A +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HvBattFullChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA HvBattFullChargeAlert is detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode State = B +2. Read the Below signals from VCU +HvBattFullCharge +HvBattFullChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - HvBattFullChargeAlert + +II If HvBattFullChargeStatus = 0 + Then HvBattFullChargeAlert = 0 or 1 Should be updated in cloud + +II. verified the HvBattFullChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode State = 0 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode State = 2 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode State = 3 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode State = 7 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode State = A +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for HVCriticalAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HVCriticalAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode State = B +2. Read the Below signals from VCU + HVCriticalAlert +HVCriticalAlertStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - HVCriticalAlert + +II If HVCriticalAlertStatus = 0 +Then HVCriticalAlert = 0,1,2 Should be updated in cloud + +III If HVCriticalAlertStatus = 2 +Then HVCriticalAlert = 5 Should be updated in cloud + +IV. verified the HVCriticalAlert is detected or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Pre-Standby + Powermode State = 0 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode State = 1 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode State = 2 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode State = 3 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode State = 4 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode State = 5 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Active + Powermode State = 6 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Tansport DriveActive + Powermode State = 7 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode State = A +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LowLVBatteryChargeAlert signal from VCU + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA LowLVBatteryChargeAlert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode State = B +2. Read the Below signals from VCU + LowLVBatteryCharge +LowLVBatteryChargeStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following details is detected in the Cloud: + a. Telemetry Record Element - LowLVBatteryChargeAlert + +II If The LowLVBatteryChargeStatus = 0 +Then LowLVBatteryChargeAlert = 0,1,2 Should be updated in cloud + +III If The LowLVBatteryChargeStatus = 2 +Then LowLVBatteryChargeAlert = 4 Should be updated in cloud + +IV. verified the LowLVBatteryChargeAlert is displayed or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect Vehicle Battery is disconnected + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Disconnect Vehicle Battery. + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - VehicleBatteryDisconnectAlert + +II. verified the VehicleBatteryDisconnectAlert is Deteceted or NAt in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA WaterInFuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Readthe Below signals from EMS + WIfLampState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert + +II If WIfLampState = 0 +Then WaterInFuelAlert = Should be updated in cloud + +III If WIfLampState = 1 +Then WaterInFuelAlert = 1Should be updated in cloud + +IV If WIfLampState = 2 +Then WaterInFuelAlert =2Should be updated in cloud + + +IV If WIfLampState = 3 +Then WaterInFuelAlert =3 Should be updated in cloud + +V. verified WaterInFuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA WaterInFuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Readthe Below signals from EMS + WIfLampState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert + +II If WIfLampState = 0 +Then WaterInFuelAlert = Should be updated in cloud + +III If WIfLampState = 1 +Then WaterInFuelAlert = 1Should be updated in cloud + +IV If WIfLampState = 2 +Then WaterInFuelAlert =2Should be updated in cloud + + +IV If WIfLampState = 3 +Then WaterInFuelAlert =3 Should be updated in cloud + +V. verified WaterInFuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of water in fuel alert from EMS + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA WaterInFuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Readthe Below signals from EMS + WIfLampState +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - WaterInFuelAlert + +II If WIfLampState = 0 +Then WaterInFuelAlert = Should be updated in cloud + +III If WIfLampState = 1 +Then WaterInFuelAlert = 1Should be updated in cloud + +IV If WIfLampState = 2 +Then WaterInFuelAlert =2Should be updated in cloud + + +IV If WIfLampState = 3 +Then WaterInFuelAlert =3 Should be updated in cloud + +V. verified WaterInFuelAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state = 7 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of BrkVacPumpMalAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA BrkVacPumpMalAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from VCU + BrkVacPumpStatus +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - BrkVacPumpMalAlert + +II If BrkVacPumpStatus = 0 +Then BrkVacPumpMalAlert =0 Should be updated in cloud + +III If BrkVacPumpStatus = 1 +Then BrkVacPumpMalAlert =1 Should be updated in cloud + +V. verified BrkVacPumpMalAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Pre-standby + Powermode state = 0 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state =5 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Active + Powermode state =6 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Tansport Drive + Powermode state =7 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Drive Crank + Powermode state = A +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ESpActiveAlert from Brake2 + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ESpActiveAlert is detected + +Test Procedure: +1. Set the Power Mode as Transport Drive Run + Powermode state = B +2. Read the Below signals from Brake2 + ESpActive +3. Check whether NArmal Alert is detected or NAt in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ESpActiveAlert + +II If ESpActive = 0 +Then ESpActiveAlert = 0 Should be updated in cloud + +III If ESpActive = 1 +Then ESpActiveAlert = 1 Should be updated in cloud + +IV. verified ESpActiveAlert is displayed or NAt in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of ParkBrakeDisengagedAlert from VCU + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NA ParkBrakeDisengagedAlert is detected + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from VCU + ParkBrkDisengaged + ParkBrkDisengagedStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed in the Cloud: + a. Telemetry Record Element - ParkBrakeDisengagedAlert +II. verified ParkBrakeDisengagedAlert is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of RefuelAlert from IPC + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) NO RefuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Active(Ignition ON) + Powermode state = 6 +2. Read the Below signals from IPC + RefuelAlert +3. Check whether Normal Alert is detected or not detected in Cloud + + +Expected Output: + +I. verified the following Alert details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - RefuelAlert + + +II IF RefuelAlert = 0 +then RefuelAlert is display =0 shouuld be updated in cloud + +III IF RefuelAlert = 1 +then RefuelAlert is display =1 shouuld be updated in cloud + +II. verified RefuelAlert is displayed or not didplayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of RefuelAlert from IPC + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No RefuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Engine Run + Powermode state = 8 +2. Read the Below signals from IPC + RefuelAlert +3. Check whether Normal Alert is detected or not detected in Cloud + + +Expected Output: + + +I. verified the following Alert details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - RefuelAlert + + +II IF RefuelAlert = 0 +then RefuelAlert is display =0 shouuld be updated in cloud + +III IF RefuelAlert = 1 +then RefuelAlert is display =1 shouuld be updated in cloud + +II. verified RefuelAlert is displayed or not displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to analyse the behaviour of TCM on receiving the alert active condition of RefuelAlert from IPC + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No RefuelAlert is detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Read the Below signals from IPC + RefuelAlert +3. Check whether Normal Alert is detected or not detected in Cloud + + +Expected Output: + + +I. verified the following Alert details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - RefuelAlert + + +II IF RefuelAlert = 0 +then RefuelAlert is display =0 shouuld be updated in cloud + +III IF RefuelAlert = 1 +then RefuelAlert is display =1 shouuld be updated in cloud + +II. verified RefuelAlert is displayed or not in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Pre Stand by + Powermode state = 0 + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and shouuld be updated in cloud + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 it should be updated on cloud +then Engine StopEvent is display or not displayed + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Transport Park + Powermode state = 2 + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and shouuld be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Key In + Powermode state = 3 + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and shouuld be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 + +Expected Output: + +I. verified the following Event details is displayed or not displated in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and shouuld be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and shouuld be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Active(Ignition ON) + Powermode state = 6 + +Expected Output: + +I. verified the following Event details is displayed or not displayedin the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Transport Drive + Powermode state = 7 + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of EngineStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) No stop EngineStopEventis detected + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 + +Expected Output: +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - EngineStopEvent +I If PowerModeStateStatus = 0 +then Engine StopEvent is display or not displayed and should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Read CabinCoolingSolValveStatte + ComfortState + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - AirConditioningStartEvent + II .If ComfortStateStatus = 0 then AirConditioningStopEvent is 0 or 1 and should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read CabinCoolingSolValveState + ComfortState + + + +Expected Output: +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - AirConditioningStartEvent + + + +II If ComfortStateStatus = 0 then AirConditioningStopEvent is 0 or and it should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 9 +2. Read CabinCoolingSolValveState + ComfortState + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - AirConditioningStartEvent +II If ComfortStateStatus = 0 then AirConditioningStopEvent is 0 or 1. and it should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Read AcCmprStatus + + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - AirConditioningStartEvent + II. If AcCmprStatus = 0 it should be updated on cloud then AirConditionningStart Event is 0 III .If AcCmprStatus = 1 AirConditionningStart Event is 1 and it should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read AcCmprStatus + + + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - AirConditioningStartEvent + II. If AcCmprStatus = 0 it should be updated on cloud then AirConditionningStart Event is 0 III .If AcCmprStatus = 1 AirConditionningStart Event is 1 and it should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of AirConditioningStartEvent & AirConditioningStopEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read AcCmprStatus + + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - AirConditioningStartEvent + II. If AcCmprStatus = 0 AirConditionningStart Event is 0 and it should be updated in cloud III .If AcCmprStatus = 1 AirConditionningStart Event is 1 and it should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleMobilizeEvent & VehicleImmobilizeEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Read VehicleMobilizationState + VehicleMobilizationStateStatus + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure, + a. Telemetry Record Element - VehicleMobilizeEvent + + +II If VehicleMobilizationState = 0 VehicleImmobilizeEvent 0 or 1 or 2 and it should be updated in cloud + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleMobilizeEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition RUN + Powermode state = 8 +2. Read + VehicleMobilizationStateStatus = 2 VehicleMobilizationState + + +Expected Output: + + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleMobilizeEvent + + Element - VehicleImmobilizeEvent +II If VehicleMobilizationState = 0 VehicleImmobilizeEvent 0 or 1 or 2 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleMobilizeEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2.Read VehicleMobilizationStateStatus VehicleMobilizationState + + +Expected Output: + + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleMobilizeEvent + + +II If VehicleMobilizationState = 0 VehicleImmobilizeEvent 0 or 1 or 2 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent & VehicleUnsecureEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Read VehicleSecured + VehicleSecuredStatus + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent alongwith status signal set to implausible. + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read VehicleSecuredStatus VehicleSecured + + + +Expected Output: + +I. verified the following Event details is displayed or not displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent alongwith status signal set to SNA. + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Key in + Powermode state = 3 +2. Read VehicleSecuredStatus VehicleSecured + + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent alongwith status signal set to implausible. + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Set VehicleSecured = 1 + VehicleSecuredStatus = 0 + +Test Procedure: +1. Set the Power Mode asTransport Park + Powermode state = 2 +2. Read VehicleSecuredStatus VehicleSecured + + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleSecureEvent alongwith status signal set to SNA. + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Set VehicleSecured = 1 + VehicleSecuredStatus = 0 + +Test Procedure: +1. Set the Power Mode as awake + Powermode state = 1 +2. Read VehicleSecuredStatus VehicleSecured + + + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory delay + Powermode state = 5 +2. Read VehicleLockState + VehicleLockStateStatus + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Read VehicleLockStateStatus VehicleLockState + + +Expected Output: +I. verified the following Event details is displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as key in + Powermode state = 3 +2. Read VehicleLockStateStatus VehicleLockState + +Expected Output: +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Transport Park + Powermode state = 2 +2. Read VehicleLockState + VehicleLockStateStatus + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode asAwake + Powermode state = 1 +2.Read VehicleLockStateStatus VehicleLockState + + +Expected Output: +I. verified the following Event details or not displayed is displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to SNA + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as Ign on + Powermode state = 6 +2. Raed VehicleLockStateStatus + VehicleLockState + +Expected Output: +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleUnlockEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Locked state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read VehicleLockState + VehicleLockStateStatus + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 then VehicleSecureEvent is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of VehicleLockEvent alongwith status signal set to implausible + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in Unlocked state + +Test Procedure: +1. Set the Power Mode as crank + Powermode state = 9 +2. Read VehicleLockStateStatus VehicleLockState + + +Expected Output: +I. verified the following Event details is displayed or not displayed in the Cloud: +after executing test procedure + a. Telemetry Record Element - VehicleSecureEvent + + +II If VehicleSecuredStatus =0 it should be updated on cloud then VehicleSecureEvent is 0 or 1 + + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. SharedLocationReq from HU keypad + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. SharedLocationReq from HU keypad + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. SharedLocationReq from HU keypad + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. SharedLocationReq from phonebook + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. SharedLocationReq from phonebook + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of ShareCarLocationEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. SharedLocationReq from phonebook + +Expected Output: + +I. verified the following Event details is displayed or not displayed in the Cloud: + a. Telemetry Record Element - ShareCarLocationEvent + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 + +2. Read the Below signals from BCM + TailgateState + TailgateStateStatus + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - Tailgate open alert (TailgateOpenAlert) shall be activated or not activated in Cloud + + II.If TailGateStatus=0 then Tailgate open alert is 0 or 1 and it should be updated in cloud + +III. verified the TailgateOpenAlert is display or not displayed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 + +2. Read the Below signals from BCM + TailgateState + TailgateStateStatus + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - Tailgate open alert (TailgateOpenAlert) shall be activated or not activated in Cloud + + II.If TailGateStatus=0 then Tailgate open alert is 0 or 1 and it should be updated in cloud + +III. verified the TailgateOpenAlert is displaying or not displayed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 + +2. Read the Below signals from BCM + TailgateState + TailgateStateStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - Tailgate open alert (TailgateOpenAlert) shall be activated or not activated in Cloud + + II.If TailGateStatus=0 then Tailgate open alert is 0 or 1 and it should be updated in cloud + +III. verified the TailgateOpenAlert is displaying or not displayed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 + +2. Read the Below signals from BCM + TailgateState + TailgateStateStatus + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - Tailgate open alert (TailgateOpenAlert) shall be activated or not activated in Cloud + + II.If TailGateStatus=0 then Tailgate open alert is 0 or 1 and it should be updated in cloud + +III. verified the TailgateOpenAlert is displaying or not displayed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 + +2. Read the Below signals from BCM + TailgateState + TailgateStateStatus + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - Tailgate open alert (TailgateOpenAlert) shall be activated or not activated in Cloud + + II.If TailGateStatus=0 then Tailgate open alert is 0 or 1 and it should be updated in cloud + +III. verified the TailgateOpenAlert is displaying or not displayed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 + +2. Read the Below signals from BCM + TailgateState + TailgateStateStatus + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - Tailgate open alert (TailgateOpenAlert) shall be activated or not activated in Cloud + + II.If TailGateStatus=0 then Tailgate open alert is 0 or 1 and it should be updated in cloud + +III. verified the TailgateOpenAlert is displaying or not displayed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 + +2. Read the Below signals from BCM + TailgateState + TailgateStateStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - Tailgate open alert (TailgateOpenAlert) shall be activated or not activated in Cloud + + II.If TailGateStatus=0 then Tailgate open alert is 0 or 1 and it should be updated in cloud + +III. verified the TailgateOpenAlert is displaying or not displayed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Awake + Powermode state = 1 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Transport Park + Powermode state = 2 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Kay in + Powermode state = 3 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Accessary + Powermode state = 4 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Accessary Delay + Powermode state = 5 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Ign on + Powermode state = 6 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Transport Drive + Powermode state = 7 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Run + Powermode state = 8 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Crank + Powermode state = 9 + + +2. Read the Below signals from BCM + DoorStateDrvr + DoorStateDrvrStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightFrontDoorOpenAlert is displaying or not displayed in the Mobile App. + +If DoorStateDrvrStatus =0 then RightFrontDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Pre standby + Powermode state = 0 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activatrd in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Transport drive crank + Powermode state = 0xA + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displayin g or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as TransportPark + Powermode state = 2 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Keyin + Powermode state = 3 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode asAccessory Delay + Powermode state = 5 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Transport drive + Powermode state = 7 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Active + Powermode state = 6 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode asRun + Powermode state = 8 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 + + + +2. Set the Below signals from BCM + DoorStatePass + DoorStatePassStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftFrontDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftFrontDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStatePassStatus =0 then LeftFrontDoorOpenAler is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Awake + Powermode state = 1 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Transport park + Powermode state = 2 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Key in + Powermode state = 3 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode asAccessary + Powermode state = 4 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Accessary Delay + Powermode state =5 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Ign On Powermode state = 6 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Run + Powermode state = 8 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as crank + Powermode state = 9 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Transport Drive + Powermode state = 7 + + +2.. Set the Below signals from BCM + DoorStateRearRH + DoorStateRearRHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RightRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the RightRearDoorOpenAlert is displaying or not displayed in the Mobile App. + III.If DoorStateRearRHStatus =0 then RightRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Transport park + Powermode state = 2 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Key in + Powermode state = 3 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Accessary + Powermode state = 4 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Accessary Delay + Powermode state = 5 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Ing on + Powermode state = 6 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayedin the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: + +1. Set the Power Mode as crank + Powermode state = 9 +2. Set the Below signals from BCM + DoorStateRearLH + DoorStateRearLHStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LeftRearDoorOpenAlert shall be activated or not activated in Cloud + + + +II. verified the LeftRearDoorOpenAlert is displaying or not displayed in the Mobile App. +III.If DoorStateRearLHStatus =0 then LeftRearDoorOpenAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as awake + Powermode state = 1 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activated in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Transport Park + Powermode state = 2 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activated in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as key in + Powermode state = 3 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activated in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Accessary + Powermode state = 4 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activted in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Accessary Delay + Powermode state = 5 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activated in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Ign on + Powermode state = 6 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activated in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activated in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event for all the below doors from BCM +Driver Door open event +Passenger Door Open event +Left Rear Door Open event +Right Rear Door Open event +Tailgate Open event +Bonnet Open event + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) All doors are closed + + +Test Procedure: +1. Set the Power Mode as crank + Powermode state = 9 2. Set the Below signals from BCM + BonnetState + BonnetStateStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - BonnetAlert shall be activated or not activated in Cloud + + + +II. verified the BonnetAlert is displaying or not displayed in the Mobile App. +III.If BonnetStateStatus =0 on cloud then BonnetAlert is 0 or 1 and it should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Hazard Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hazard Lamp is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Active Ignition ON + Powermode state = 6 + 2. Read Below signals from BCM + HazardLampState + HazardLampStateStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HazardLampAlert + +II.If Hazardlampstatus = 0 +then HazardLampAlert = 0 or 1 should be updated in the cloud + + +III. Check whether the HazardLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Hazard Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hazard Lamp is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 + 2. Read Below signals from BCM + HazardLampState + HazardLampStateStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HazardLampAlert + +II.If Hazardlampstatus = 0 +then HazardLampAlert = 0 or 1 should be updated in the cloud + + +III. Check whether the HazardLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Hazard Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Hazard Lamp is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state =9 + 2. Read Below signals from BCM + HazardLampState + HazardLampStateStatus + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - HazardLampAlert + +II.If Hazardlampstatus = 0 +then HazardLampAlert = 0 or 1 should be updated in the cloud + + +III. Check whether the HazardLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Position Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Position Lamp is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 + 2. Read the Below signals from BCM + PositionLmpTelltale + PositionLmpTelltaleStatus + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - PositionLampAlert + +II. If PositionLmpTelltale status = 0 +then PostionLampAlert = 0 or 1 should be updated in the cloud + +III. Check whether the PositionLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Position Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Position Lamp is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 + 2. Read the Below signals from BCM + PositionLmpTelltale + PositionLmpTelltaleStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - PositionLampAlert + +II. If PositionLmpTelltale status = 0 +then PostionLampAlert = 0 or 1 should be updated in the cloud + +III. Check whether the PositionLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Position Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Position Lamp is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 + 2. Read the Below signals from BCM + PositionLmpTelltale + PositionLmpTelltaleStatus + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - PositionLampAlert + +II. If PositionLmpTelltale status = 0 +then PostionLampAlert = 0 or 1 should be updated in the cloud + +III. Check whether the PositionLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +Test casse to analyse the behaviour of TCM on receiving the alert active condition of 'RTIC Alert' + + + +Pre-condition: +1) TCM is in the authorized state. +2) TCM with a functioning SIM +3) TCM SIM card have sufficient network strength + + +Test Procedure: +Bosch test report to be referred for test procedure + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - RTIC Alert + b. Telemetry Record Element - RTIcEvent + + + +II. verified the RTIC Alert is detected in the Mobile App after timer Expiry. + +======================================== + +======================================== + +Test Description: +To test that Telematics shall start recording and exporting of all ignition ON alerts with a 6s delay post ignition ON + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)No Mobile Network +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set powerModeState = 6 (Ignition ON) +2. Set below paramets values + TransmissionFaultAlert =1 + HVBatteryTemperatureHighAlert =1 + HVBatteryLowChargeAlert=1 + ABSESPMalfunctionAlert=1 + EPASAlert=1 + AirbagECuMalfunctionAlert =1 + HVBatteryTemperatureHighAlert=1 + DriveMotorMalfunctionAlert=1 + HVBatteryHealthAlert=1 + HHcStatusAlert=1 + HDcStatusAlert=1 + VCUMalfunctionAlert=1 + + +Expected Output: +verified that following alerts are observed on cloud post 6 S of Ignition ON: + TransmissionFaultAlert + HVBatteryTemperatureHighAlert + HVBatteryLowChargeAlert + ABSESPMalfunctionAlert + EPASAlert + AirbagECuMalfunctionAlert + HVBatteryTemperatureHighAlert + DriveMotorMalfunctionAlert + HVBatteryHealthAlert + HHcStatusAlert + HDcStatusAlert + VCUMalfunctionAlert + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Key in Car status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Key is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Read the below signals from PEPS + PEPsKeyInState + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - KeyInCarAlert + +II. If PEPsKeyInState = 0 +then KeyInStateAlert = 0 should be updated in the cloud. + +III. If PEPsKeyInState = 1 +then KeyInStateAlert = 1 should be updated in cloud. + +IV. Verify KeyInCarAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Key in Car status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Key is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Read the below signals from PEPS + PEPsKeyInState + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - KeyInCarAlert + +II. If PEPsKeyInState = 0 +then KeyInStateAlert = 0 should be updated in the cloud. + +III. If PEPsKeyInState = 1 +then KeyInStateAlert = 1 should be updated in cloud. + +IV. Verify KeyInCarAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Key in Car status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Key is not detected +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Read the below signals from PEPS + PEPsKeyInState + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - KeyInCarAlert + +II. If PEPsKeyInState = 0 +then KeyInStateAlert = 0 should be updated in the cloud. + +III. If PEPsKeyInState = 1 +then KeyInStateAlert = 1 should be updated in cloud. + +IV. Verify KeyInCarAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Low Beam Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Read the Below signals from BCM +LowBeamTelltale status = 0 +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 + 2. Read the Below signals from BCM + LowBeamTelltale + + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LowBeamAlert + +II. If LowBeamTelltale status = 0 +then LowBeamLampAlert = 0 or 1 should be updated in the cloud + +III. Check whether the LowBeamAlert is not detected in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Low Beam Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Read the Below signals from BCM +LowBeamTelltale status = 0 +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 + 2. Read the Below signals from BCM + LowBeamTelltale + + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LowBeamAlert + +II. If LowBeamTelltale status = 0 +then LowBeamLampAlert = 0 or 1 should be updated in the cloud + +III. Check whether the LowBeamAlert is not detected in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Low Beam Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Read the Below signals from BCM +LowBeamTelltale status = 0 +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 + 2. Read the Below signals from BCM + LowBeamTelltale + + + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - LowBeamAlert + +II. If LowBeamTelltale status = 0 +then LowBeamLampAlert = 0 or 1 should be updated in the cloud + +III. Check whether the LowBeamAlert is not detected in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Approach Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Read the Below signals from BCM +ApproachLampStatus=0 +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 + 2. Read the Below signals from BCM + ApprochLampState + + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - ApproachLampOnAlert + +II. If ApproachLampStatus = 0 +then ApproachLampOnAlert = 0 or 1 should be updated in the cloud + +III. Check whether the ApproachLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Approach Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Read the Below signals from BCM +ApproachLampStatus=0 +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 + 2. Read the Below signals from BCM + ApprochLampState + + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - ApproachLampOnAlert + +II. If ApproachLampStatus = 0 +then ApproachLampOnAlert = 0 or 1 should be updated in the cloud + +III. Check whether the ApproachLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the Approach Lamp status and Door Open status signals from BCM + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Read the Below signals from BCM +ApproachLampStatus=0 +4) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 + 2. Read the Below signals from BCM + ApprochLampState + + + + + +Expected Output: + +I. verified the following details in the Cloud: + a. Telemetry Record Element - ApproachLampOnAlert + +II. If ApproachLampStatus = 0 +then ApproachLampOnAlert = 0 or 1 should be updated in the cloud + +III. Check whether the ApproachLampAlert is detected or not in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. + + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Set the Below signals from VCU + VehSpdIC = 0 + ICDispSpeedSig = 0 + ICDispSpeedSigStatus = 0 + VehSpdICStatus = 0 + EngSpd != 0 + + + + +Expected Output: + +I. verified the following details in the Cloud: + Telemetry Record Element - VehicleIdleAlert + + + +II. verified the VehicleIdleAlert is detected in the Mobile App after timer Expiry. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. + + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Set the Below signals from VCU + VehSpdIC = 0 + ICDispSpeedSig = 0 + ICDispSpeedSigStatus = 0 + VehSpdICStatus = 0 + EngSpd != 0 + + + + +Expected Output: + +I. verified the following details in the Cloud: + Telemetry Record Element - VehicleIdleAlert + + + +II. verified the VehicleIdleAlert is detected in the Mobile App after timer Expiry. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. + + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from VCU + VehSpdIC = 0 + ICDispSpeedSig = 0 + ICDispSpeedSigStatus = 0 + VehSpdICStatus = 0 + EngSpd != 0 + + + + +Expected Output: + +I. verified the following details in the Cloud: + Telemetry Record Element - VehicleIdleAlert + + + +II. verified the VehicleIdleAlert is detected in the Mobile App after timer Expiry. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect Tow Away condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Simulate a Tow Away condition + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - TowAway/unauthorizedMovementAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. verified the TowAway/unauthorizedMovementAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect Tow Away condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Simulate a Tow Away condition + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - TowAway/unauthorizedMovementAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. verified the TowAway/unauthorizedMovementAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect Tow Away condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Simulate a Tow Away condition + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - TowAway/unauthorizedMovementAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. verified the TowAway/unauthorizedMovementAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect parking Collision condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Simulate a Parking Collison + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ParkingCollisionAlert + +II. verified the ParkingCollisionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect parking Collision condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 8 +2. Simulate a Parking Collison + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ParkingCollisionAlert + +II. verified the ParkingCollisionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect parking Collision condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 9 +2. Simulate a Parking Collison + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - ParkingCollisionAlert + +II. verified the ParkingCollisionAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of eCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Press Hardpress button to initiate bcall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - bCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of eCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Press Hardpress button to initiate bcall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - bCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of bCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Press Hardpress button to initiate bcall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - bCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of eCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Press Softpress button through tata assist to initiate bcall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - bCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of eCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Press Softpress button through tata assist to initiate bcall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - bCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of bCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Press Softpress button through tata assist to initiate bcall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - bCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of eCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Press hardpress button to initiate ecall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - eCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of eCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Press hardpress button to initiate ecall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - eCallEvent + + +======================================== + +======================================== + +Test Description: +Test case to to analyse the behaviour of TCM on receiving the condition of bCallEvent occurrence + +Pre-condition: +1) TCM is in authorised state. +2) TCM SIM card has sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Press hardpress button to initiate ecall + +Expected Output: + +I. verified the following Event details is displayed in the Cloud: + a. Telemetry Record Element - eCallEvent + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect Device Tampering condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode state = 6 +2. Simulate a Device Tampering Condition + + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - DeviceTamperingAlert + +II. verified the DeviceTamperingAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect Device Tampering condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode state = 8 +2. Simulate a Device Tampering Condition + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - DeviceTamperingAlert + +II. verified the DeviceTamperingAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM detect Device Tampering condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in ingintion off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Simulate a Device Tampering Condition + +Expected Output: + +I. verified the following details is removed in the Cloud: + a. Telemetry Record Element - DeviceTamperingAlert + +II. verified the DeviceTamperingAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) request to the platform from the Connected car app + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition + Power mode state = 6 +2. The User shall send a request to the platform using the Connected car app. + +Expected Output: + + +I. Verify the following Message in the Cloud from Mobile App: + LiveTrackingCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) request to the platform from the Connected car app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. The User shall send a request to the platform using the Connected car app. + +Expected Output: + + +I. Verify the following Message in the Cloud from Mobile App: + LiveTrackingCommand + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) request to the platform from the Connected car app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. The User shall send a request to the platform using the Connected car app. + +Expected Output: + + +I. Verify the following Message in the Cloud from Mobile App: + LiveTrackingCommand + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud request TCU to send telemetry data on receiving request from App. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition + Power mode state = 6 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. Verify the following Message that Cloud send to TCU: + ChangeTelemetryExportIntervalCommand + +II.Cloud retrieve the GPS location of the vehicle from the telemetry data and send the live location to the App in the form of a link +GPS Signals: + GPS_Lat + GPS_Long + GPS_Altitude + GPS_Course Angle + GPS_SignalQuality + GPS_Accuracy_Lat + GPS_Accuracy_Lon + GPS_Accuracy_Height + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud request TCU to send telemetry data on receiving request from App. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. Verify the following Message that Cloud send to TCU: + ChangeTelemetryExportIntervalCommand + +II.Cloud retrieve the GPS location of the vehicle from the telemetry data and send the live location to the App in the form of a link +GPS Signals: + GPS_Lat + GPS_Long + GPS_Altitude + GPS_Course Angle + GPS_SignalQuality + GPS_Accuracy_Lat + GPS_Accuracy_Lon + GPS_Accuracy_Height + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud request TCU to send telemetry data on receiving request from App. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. Verify the following Message that Cloud send to TCU: + ChangeTelemetryExportIntervalCommand + +II.Cloud retrieve the GPS location of the vehicle from the telemetry data and send the live location to the App in the form of a link +GPS Signals: + GPS_Lat + GPS_Long + GPS_Altitude + GPS_Course Angle + GPS_SignalQuality + GPS_Accuracy_Lat + GPS_Accuracy_Lon + GPS_Accuracy_Height + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU, on receiving change frequency of telemetry request from cloud(Verify in TCU internal logs that TCU recieves this command), + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition + Power mode state = 6 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. TCU shall set , which does not automatically expire If the urgency property of is true +II. TCU start sending telemetry data at specially requested frequency +III. TCU send a to cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU, on receiving change frequency of telemetry request from cloud(Verify in TCU internal logs that TCU recieves this command), + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. TCU shall set , which does not automatically expire If the urgency property of is true +II. TCU start sending telemetry data at specially requested frequency +III. TCU send a to cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU, on receiving change frequency of telemetry request from cloud(Verify in TCU internal logs that TCU recieves this command), + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving stop Tracking request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Vehicle is in Ignition + Power mode state = 6 +4) TCU sending telemetry data at specially requested frequency + +Test Procedure: +1. Perform stop tracking request from App + +Expected Output: + + +I. On receiving Stop Tracking request from App, Cloud shall ask the TCU to stop sending telemetry with changed frequency and restore to default frequency by setting appropriate parameters of + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving stop Tracking request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Vehicle is in Crank + Power mode state = 9 +4) TCU sending telemetry data at specially requested frequency + +Test Procedure: +1. Perform stop tracking request from App + +Expected Output: + + +I. On receiving Stop Tracking request from App, Cloud shall ask the TCU to stop sending telemetry with changed frequency and restore to default frequency by setting appropriate parameters of + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving stop Tracking request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Vehicle is in Run + Power mode state = 8 +4) TCU sending telemetry data at specially requested frequency + +Test Procedure: +1. Perform stop tracking request from App + +Expected Output: + + +I. On receiving Stop Tracking request from App, Cloud shall ask the TCU to stop sending telemetry with changed frequency and restore to default frequency by setting appropriate parameters of + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake. + Power mode state = 1 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Acc. Delay. + Power mode state = 5 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory. + Power mode state = 4 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition. + Power mode state = 6 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank. + Power mode state = 9 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run. + Power mode state = 8 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) IGN is OFF +4) TCU is in Sleep mode + +Test Procedure: +1. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that TCU is wake up over SMS from cloud +II. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Awake. + Power mode state = 1 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Acc. Delay. + Power mode state = 5 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Accessory. + Power mode state = 4 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Ignition. + Power mode state = 6 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Crank. + Power mode state = 9 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Run. + Power mode state = 8 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) request to the platform from the Connected car app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition + Power mode state = 6 +2. The User shall send a request to the platform using the Connected car app. + +Expected Output: + + +I. Verify the following Message in the Cloud from Mobile App: + LiveTrackingCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) request to the platform from the Connected car app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. The User shall send a request to the platform using the Connected car app. + +Expected Output: + + +I. Verify the following Message in the Cloud from Mobile App: + LiveTrackingCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) request to the platform from the Connected car app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. The User shall send a request to the platform using the Connected car app. + +Expected Output: + + +I. Verify the following Message in the Cloud from Mobile App: + LiveTrackingCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud request TCU to send telemetry data on receiving request from App. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition + Power mode state = 6 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. Verify the following Message that Cloud send to TCU: + ChangeTelemetryExportIntervalCommand + +II.Cloud retrieve the GPS location of the vehicle from the telemetry data and send the live location to the App in the form of a link +GPS Signals: + GPS_Lat + GPS_Long + GPS_Altitude + GPS_Course Angle + GPS_SignalQuality + GPS_Accuracy_Lat + GPS_Accuracy_Lon + GPS_Accuracy_Height + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud request TCU to send telemetry data on receiving request from App. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. Verify the following Message that Cloud send to TCU: + ChangeTelemetryExportIntervalCommand + +II.Cloud retrieve the GPS location of the vehicle from the telemetry data and send the live location to the App in the form of a link +GPS Signals: + GPS_Lat + GPS_Long + GPS_Altitude + GPS_Course Angle + GPS_SignalQuality + GPS_Accuracy_Lat + GPS_Accuracy_Lon + GPS_Accuracy_Height + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud request TCU to send telemetry data on receiving request from App. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. Verify the following Message that Cloud send to TCU: + ChangeTelemetryExportIntervalCommand + +II.Cloud retrieve the GPS location of the vehicle from the telemetry data and send the live location to the App in the form of a link +GPS Signals: + GPS_Lat + GPS_Long + GPS_Altitude + GPS_Course Angle + GPS_SignalQuality + GPS_Accuracy_Lat + GPS_Accuracy_Lon + GPS_Accuracy_Height + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU, on receiving change frequency of telemetry request from cloud(Verify in TCU internal logs that TCU recieves this command), + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition + Power mode state = 6 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. TCU shall set , which does not automatically expire If the urgency property of is true +II. TCU start sending telemetry data at specially requested frequency +III. TCU send a to cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU, on receiving change frequency of telemetry request from cloud(Verify in TCU internal logs that TCU recieves this command), + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. TCU shall set , which does not automatically expire If the urgency property of is true +II. TCU start sending telemetry data at specially requested frequency +III. TCU send a to cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU, on receiving change frequency of telemetry request from cloud(Verify in TCU internal logs that TCU recieves this command), + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. TCU shall set , which does not automatically expire If the urgency property of is true +II. TCU start sending telemetry data at specially requested frequency +III. TCU send a to cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving stop Tracking request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Vehicle is in Ignition + Power mode state = 6 +4) TCU sending telemetry data at specially requested frequency + +Test Procedure: +1. Perform stop tracking request from App + +Expected Output: + + +I. On receiving Stop Tracking request from App, Cloud shall ask the TCU to stop sending telemetry with changed frequency and restore to default frequency by setting appropriate parameters of + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving stop Tracking request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Vehicle is in Crank + Power mode state = 9 +4) TCU sending telemetry data at specially requested frequency + +Test Procedure: +1. Perform stop tracking request from App + +Expected Output: + + +I. On receiving Stop Tracking request from App, Cloud shall ask the TCU to stop sending telemetry with changed frequency and restore to default frequency by setting appropriate parameters of + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving stop Tracking request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Vehicle is in Run + Power mode state = 8 +4) TCU sending telemetry data at specially requested frequency + +Test Procedure: +1. Perform stop tracking request from App + +Expected Output: + + +I. On receiving Stop Tracking request from App, Cloud shall ask the TCU to stop sending telemetry with changed frequency and restore to default frequency by setting appropriate parameters of + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on sending to cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User shall send find my car location request to the platform using the Connected car app. + + +Test Procedure: +1. Set the Power Mode as Awake. + Power mode state = 1 +2. TCU is receiving find my car request from Cloud +3. TCU is executing and sending to cloud + +Expected Output: + +I. Verify that hardwired wake up line in not activated. +(BCM and VCU must be in Sleep state) +II. Verify that TCU is not publishing any signal on CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on sending to cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User shall send find my car location request to the platform using the Connected car app. + + +Test Procedure: +1. Set the Power Mode as Acc. Delay. + Power mode state = 5 +2. TCU is receiving find my car request from Cloud +3. TCU is executing and sending to cloud + +Expected Output: + +I. Verify that hardwired wake up line in not activated. +(BCM and VCU must be in Sleep state) +II. Verify that TCU is not publishing any signal on CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on sending to cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User shall send find my car location request to the platform using the Connected car app. + + +Test Procedure: +1. Set the Power Mode as Accessory. + Power mode state = 4 +2. TCU is receiving find my car request from Cloud +3. TCU is executing and sending to cloud + +Expected Output: + +I. Verify that hardwired wake up line in not activated. +(BCM and VCU must be in Sleep state) +II. Verify that TCU is not publishing any signal on CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on sending to cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User shall send find my car location request to the platform using the Connected car app. + + +Test Procedure: +1. Set the Power Mode as Ignition. + Power mode state = 6 +2. TCU is receiving find my car request from Cloud +3. TCU is executing and sending to cloud + +Expected Output: + +I. Verify that hardwired wake up line in not activated. +(BCM and VCU must be in Sleep state) +II. Verify that TCU is not publishing any signal on CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on sending to cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User shall send find my car location request to the platform using the Connected car app. + + +Test Procedure: +1. Set the Power Mode as Crank. + Power mode state = 9 +2. TCU is receiving find my car request from Cloud +3. TCU is executing and sending to cloud + +Expected Output: + +I. Verify that hardwired wake up line in not activated. +(BCM and VCU must be in Sleep state) +II. Verify that TCU is not publishing any signal on CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on sending to cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User shall send find my car location request to the platform using the Connected car app. + + +Test Procedure: +1. Set the Power Mode as Run. + Power mode state = 8 +2. TCU is receiving find my car request from Cloud +3. TCU is executing and sending to cloud + +Expected Output: + +I. Verify that hardwired wake up line in not activated. +(BCM and VCU must be in Sleep state) +II. Verify that TCU is not publishing any signal on CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake. + Power mode state = 1 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Acc. Delay. + Power mode state = 5 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory. + Power mode state = 4 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition. + Power mode state = 6 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank. + Power mode state = 9 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run. + Power mode state = 8 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) IGN is OFF +4) TCU is in Sleep mode + +Test Procedure: +1. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that TCU is wake up over SMS from cloud +II. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Awake. + Power mode state = 1 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Acc. Delay. + Power mode state = 5 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Accessory. + Power mode state = 4 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Ignition. + Power mode state = 6 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Crank. + Power mode state = 9 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Run. + Power mode state = 8 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) request to the platform from the Connected car app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition + Power mode state = 6 +2. The User shall send a request to the platform using the Connected car app. + +Expected Output: + + +I. Verify the following Message in the Cloud from Mobile App: + FindMyCarCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) request to the platform from the Connected car app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. The User shall send a request to the platform using the Connected car app. + +Expected Output: + + +I. Verify the following Message in the Cloud from Mobile App: + FindMyCarCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) request to the platform from the Connected car app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. The User shall send a request to the platform using the Connected car app. + +Expected Output: + + +I. Verify the following Message in the Cloud from Mobile App: + FindMyCarCommand + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud request TCU to send telemetry data on receiving request from App. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition + Power mode state = 6 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. Verify the following Message that Cloud send to TCU: + ChangeTelemetryExportIntervalCommand + +II.Cloud retrieve the GPS location of the vehicle from the telemetry data and send the live location to the App in the form of a link +GPS Signals: + GPS_Lat + GPS_Long + GPS_Altitude + GPS_Course Angle + GPS_SignalQuality + GPS_Accuracy_Lat + GPS_Accuracy_Lon + GPS_Accuracy_Height + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud request TCU to send telemetry data on receiving request from App. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. Verify the following Message that Cloud send to TCU: + ChangeTelemetryExportIntervalCommand + +II.Cloud retrieve the GPS location of the vehicle from the telemetry data and send the live location to the App in the form of a link +GPS Signals: + GPS_Lat + GPS_Long + GPS_Altitude + GPS_Course Angle + GPS_SignalQuality + GPS_Accuracy_Lat + GPS_Accuracy_Lon + GPS_Accuracy_Height + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU, on receiving change frequency of telemetry request from cloud (Verify in TCU internal logs that TCU recieves this command). + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Ignition + Power mode state = 6 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. TCU shall set , which does not automatically expire If the urgency property of is true +II. TCU start sending telemetry data at specially requested frequency +III. TCU send a to cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU, on receiving change frequency of telemetry request from cloud (Verify in TCU internal logs that TCU recieves this command). + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. The User shall send a request to the platform using the Connected car app. +3. Cloud request TCU to send telemetry data on receiving request from App to send telemetry data with changed frequency by setting appropriate parameters + +Expected Output: + + +I. TCU shall set , which does not automatically expire If the urgency property of is true +II. TCU start sending telemetry data at specially requested frequency +III. TCU send a to cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving stop Tracking request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Vehicle is in Ignition + Power mode state = 6 +4) TCU sending telemetry data at specially requested frequency (Tester can change the telemetry data frequency from cloud portal) + +Test Procedure: +1. Perform stop tracking request from App + +Expected Output: + + +I. On receiving Stop Tracking request from App, Cloud shall ask the TCU to stop sending telemetry with changed frequency and restore to default frequency by setting appropriate parameters of + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving stop Tracking request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Vehicle is in Crank + Power mode state = 9 +4) TCU sending telemetry data at specially requested frequency +(Tester can change the telemetry data frequency from cloud portal) + +Test Procedure: +1. Perform stop tracking request from App + +Expected Output: + + +I. On receiving Stop Tracking request from App, Cloud shall ask the TCU to stop sending telemetry with changed frequency and restore to default frequency by setting appropriate parameters of + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving stop Tracking request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Vehicle is in Run + Power mode state = 8 +4) TCU sending telemetry data at specially requested frequency +(Tester can change the telemetry data frequency from cloud portal) + +Test Procedure: +1. Perform stop tracking request from App + +Expected Output: + + +I. On receiving Stop Tracking request from App, Cloud shall ask the TCU to stop sending telemetry with changed frequency and restore to default frequency by setting appropriate parameters of + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on sending to cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User shall send find my car location request to the platform using the Connected car app. + + +Test Procedure: +1. Set the Power Mode as Awake. + Power mode state = 1 +2. TCU is receiving find my car request from Cloud +3. TCU is executing and sending to cloud + +Expected Output: + +I. Verify that hardwired wake up line in not activated. +(BCM and VCU must be in Sleep state) +II. Verify that TCU is not publishing any signal on CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on sending to cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User shall send find my car location request to the platform using the Connected car app. + + +Test Procedure: +1. Set the Power Mode as Accessory. + Power mode state = 5 +2. TCU is receiving find my car request from Cloud +3. TCU is executing and sending to cloud + +Expected Output: + +I. Verify that hardwired wake up line in not activated. +(BCM and VCU must be in Sleep state) +II. Verify that TCU is not publishing any signal on CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on sending to cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User shall send find my car location request to the platform using the Connected car app. + + +Test Procedure: +1. Set the Power Mode as Ignition. + Power mode state = 6 +2. TCU is receiving find my car request from Cloud +3. TCU is executing and sending to cloud + +Expected Output: + +I. Verify that hardwired wake up line in not activated. +(BCM and VCU must be in Sleep state) +II. Verify that TCU is not publishing any signal on CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on sending to cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User shall send find my car location request to the platform using the Connected car app. + + +Test Procedure: +1. Set the Power Mode as Run. + Power mode state = 8 +2. TCU is receiving find my car request from Cloud +3. TCU is executing and sending to cloud + +Expected Output: + +I. Verify that hardwired wake up line in not activated. +(BCM and VCU must be in Sleep state) +II. Verify that TCU is not publishing any signal on CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake. + Power mode state = 1 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory. + Power mode state = 4 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition. + Power mode state = 6 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run. + Power mode state = 8 +2. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) On receiving find my car request from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) IGN is OFF +4) TCU is in Sleep mode + +Test Procedure: +1. The User shall send find my car location request to the platform using the Connected car app. + +Expected Output: + +I. Verify that TCU is wake up over SMS from cloud +II. Verify that Cloud is sending to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Awake. + Power mode state = 1 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Accessory. + Power mode state = 4 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Ignition. + Power mode state = 6 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Run. + Power mode state = 8 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution +III. After sending telemetry packet, TCU will go to sleep mode again + + +======================================== + +======================================== + +Test Description: +Testcase for analyse the time taken for getting Telemetry packet after "Find My Car" is requested from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Awake + + +Test Procedure: +1. Vehicle is in Ignition OFF +2. The User shall send find my car location request to the platform using the Connected car app. +3. Check the time for receiving FindCarLocationCommandresponse from the Vehicle + + (Repeat the procedure 5 times and note down the time taken) + +Expected Output: +1. Repeat the procedure 5 times and note down the time taken + +======================================== + +======================================== + +Test Description: +Testcase for analyse the time taken for getting Telemetry packet after "Find My Car" is requested from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep + + +Test Procedure: +1. Vehicle is in Ignition OFF +2. The User shall send find my car location request to the platform using the Connected car app. +3. Check the time for receiving FindCarLocationCommandresponse from the Vehicle + + (Repeat the procedure 5 times and note down the time taken) + +Expected Output: +1. Repeat the procedure 5 times and note down the time taken + +======================================== + +======================================== + +Test Description: +Testcase for analyse the time taken for getting Telemetry packet after "Find My Car" is requested from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Awake + + +Test Procedure: +1. Vehicle is in Ignition ON +2. The User shall send find my car location request to the platform using the Connected car app. +3. Check the time for receiving FindCarLocationCommandresponse from the Vehicle + + (Repeat the procedure 5 times and note down the time taken) + +Expected Output: +1. Repeat the procedure 5 times and note down the time taken + +======================================== + +======================================== + +Test Description: +Testcase for analyse the time taken for getting Telemetry packet after "Find My Car" is requested from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep + + +Test Procedure: +1. Vehicle is in Ignition ON +2. The User shall send find my car location request to the platform using the Connected car app. +3. Check the time for receiving FindCarLocationCommandresponse from the Vehicle + + (Repeat the procedure 5 times and note down the time taken) + +Expected Output: +1. Repeat the procedure 5 times and note down the time taken + +======================================== + +======================================== + +Test Description: +Testcase for analyse the time taken for getting Telemetry packet after "Find My Car" is requested from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Awake + + +Test Procedure: +1. Vehicle is in Running. +2. The User shall send find my car location request to the platform using the Connected car app. +3. Check the time for receiving FindCarLocationCommandresponse from the Vehicle + + (Repeat the procedure 5 times and note down the time taken) + +Expected Output: +1. Repeat the procedure 5 times and note down the time taken + +======================================== + +======================================== + +Test Description: +Testcase for analyse the time taken for getting Telemetry packet after "Find My Car" is requested from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep + + +Test Procedure: +1. Vehicle is in Running. +2. The User shall send find my car location request to the platform using the Connected car app. +3. Check the time for receiving FindCarLocationCommandresponse from the Vehicle + + (Repeat the procedure 5 times and note down the time taken) + +Expected Output: +1. Repeat the procedure 5 times and note down the time taken + +======================================== + +======================================== + +Test Description: +Testcase for analyse the time taken for getting Telemetry packet after "Live Tracking" is requested from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Awake + + +Test Procedure: +1. Vehicle is in Running. +2. The User shall send Live Tracking request to the platform using the Connected car app. +3. Check the time for receiving FindMyCarrequestresponse from the Vehicle + + (Repeat the procedure 5 times and note down the time taken) + +Expected Output: +1. Repeat the procedure 5 times and note down the time taken + +======================================== + +======================================== + +Test Description: +Testcase for analyse the time taken for getting Telemetry packet after "Live Tracking" is requested from App + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep + + +Test Procedure: +1. Vehicle is in Running. +2. The User shall send Live Tracking request to the platform using the Connected car app. +3. Check the time for receiving FindMyCarrequestresponse from the Vehicle + + (Repeat the procedure 5 times and note down the time taken) + +Expected Output: +1. Repeat the procedure 5 times and note down the time taken + +======================================== + +======================================== + +Test Description: +Testcase for analyse the behaviour when requesting "Find My Car" App in No Network scenario + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) No Network between TCU and Cloud +4) TCU is in Awake + + +Test Procedure: +1. Vehicle is in Running. +2. The User shall send Find My Car request to the platform using the Connected car app. +3. Check the behaviour of the system + +Expected Output: +1. Verify that Mobile app is showing the last known location of vehicle. +2. Once the network comes, verify that location should be upated to current geo coordinates. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU on receiving find my car request from cloud + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + +Test Procedure: +1. Set the Power Mode as Run. + Power mode state = 8 +2. The User shall send find my car location request to the platform using the Connected car app. +3. TCU is receiving find my car request from Cloud + +Expected Output: + +I. Verify that TCU is sending telemetry packet to cloud +II. Verify that TCU also sends to indicate the status of FindCarLocationCommand execution + + + +======================================== + +======================================== + +Test Description: +Testcase for analyse the behaviour when requesting "Find My Car" App in No Network scenario + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) No Network between TCU and Cloud +4) TCU is in Awake + + +Test Procedure: +1. Vehicle is in Running. +2. The User shall send Find My Car request to the platform using the Connected car app. +3. Check the behaviour of the system + +Expected Output: +1. Verify that Mobile app is showing the last known location of vehicle. +2. Once the network comes, verify that location should be upated to current geo coordinates. + +======================================== + +======================================== + +Test Description: +Testcase for analyse the behaviour when requesting "Live Tracking" App in No Network scenario + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Awake + + +Test Procedure: +1. Vehicle is in Running. +2. The User shall send Live Tracking request to the platform using the Connected car app. +3. Turn the Vehicle to Ignition Off +4. Turn the Vehicle to Ignition On and keep on Running +5. Check the Live Tracking is updated + +Expected Output: +1. Verify that Mobile app is showing the last known location of vehicle. +2. Once the network comes, verify that location should be upated to current geo coordinates. + +======================================== + +======================================== + +Test Description: +Testcase for analyse the behaviour when requesting "Find My Car" App in No Network scenario + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Awake + + +Test Procedure: +1. Vehicle is in Running. +2. The User shall send Find My Car request to the platform using the Connected car app. + + +Expected Output: +1. Verify that Mobile app is showing is updated location while vehicle is in running. +2. Verify that vehicle icon is moving on mobile app screen. + +======================================== + +======================================== + +Test Description: +Testcase for analyse the behaviour when requesting "Find My Car" App in No Network scenario + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Awake + + +Test Procedure: +1. The User shall send Find My Car request to the platform using the Connected car app. +2. User clicks on share tracking icon. +3. User can share the location upto five favorites contacts. + + +Expected Output: +1. Verify that user is able to share the live location. +2. Verify that all the five contacts are able to recieve the location of vehicle. + +======================================== + +======================================== + +Test Description: +Testcase for analyse the behaviour when requesting "Find My Car" App in No Network scenario + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Awake + + +Test Procedure: +1. Vehicle is in Running. +2. The User shall send Find My Car command with interval of 20 sec from cloud portal +3. The User shall send Find My Car command with interval of 40 sec from cloud portal +4. The User shall send Find My Car command with interval of 50 sec from cloud portal + + +Expected Output: +1. Verify that Mobile app is showing is updated location while vehicle is in running.. + +======================================== + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Unlock remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + UnlockVehicleCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Unlock remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + UnlockVehicleCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Lock remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Vehicle Lock remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + LockVehicleCommand +2. Wakeup BCM by activating hardwire wakeup line +3 Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Check Vehicle Lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Lock remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Vehicle Lock remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + LockVehicleCommand +2. Wakeup BCM by activating hardwire wakeup line +3 Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Check Vehicle Lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Unlock remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check Vehicle Unlock function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Unlock remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check Vehicle Unlock function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Lock remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Vehicle Lock remote command from App + +Expected Output: +1. Check Vehicle Lock function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Lock remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Vehicle Lock remote command from App + +Expected Output: +1. Check Vehicle Lock function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate vehicle Unlock remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Vehicle Unlock remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + UnlockVehicleCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate vehicle Unlock remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Vehicle Unlock remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + UnlockVehicleCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate vehicle Lock remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Vehicle Lock remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + LockVehicleCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate vehicle Lock remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Vehicle Lock remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + LockVehicleCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Unlock command at BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM connector to create BCM Failure +3. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check Vehicle Unlock function not performed +2. Check Vehicle Unlock status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Unlock command at BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM Fuse to create BCM Failure +3. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check Vehicle Unlock function not performed +2. Check Vehicle Unlock status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Lock command to BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM connector to create BCM Failure +3. Trigger Vehicle Lock remote command from App + +Expected Output: +1. Check Vehicle Lock function not performed +2. Check Vehicle Lock status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Lock command to BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM Fuse to create BCM Failure +3. Trigger Vehicle Lock remote command from App + +Expected Output: +1. Check Vehicle Lock function not performed +2. Check Vehicle Lock status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Unlock command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + UnlockVehicleCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Unlock command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + UnlockVehicleCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Lock command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Vehicle Lock remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + LockVehicleCommand +2. Wakeup BCM by activating hardwire wakeup line +3 Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Check Vehicle Lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Lock command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Vehicle Lock remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + LockVehicleCommand +2. Wakeup BCM by activating hardwire wakeup line +3 Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Check Vehicle Lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Vehicle Unlock remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Vehicle Unlock function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Vehicle Unlock remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Vehicle Unlock function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Vehicle Lock remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Vehicle Lock remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Vehicle Lock function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Vehicle Lock remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Vehicle Lock remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Vehicle Lock function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Vehicle Unlock status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Unlock the Vehicle door + +Expected Output: +1. Check Cloud platform has not updated with Vehicle Unlock status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Vehicle Unlock status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Unlock the Vehicle door + +Expected Output: +1. Check Cloud platform has not updated with Vehicle Unlock status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Vehicle Lock status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Lock the Vehicle door + +Expected Output: +1. Check Cloud platform has not updated with Vehicle Lock status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Vehicle Lock status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Lock the Vehicle door + +Expected Output: +1. Check Cloud platform has not updated with Vehicle Lock status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Vehicle Unlock remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + UnlockVehicleCommand +2. Check Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Vehicle Unlock remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + UnlockVehicleCommand +2. Check Vehicle Unlock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Vehicle Lock remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Vehicle Lock remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + UnlockVehicleCommand +2. Check Vehicle Lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Vehicle Lock remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Vehicle Lock remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + UnlockVehicleCommand +2. Check Vehicle Lock status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Vehicle Unlock status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Unlock the Vehicle door + +Expected Output: +1. Check Cloud platform updated with Vehicle Unlock status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Vehicle Unlock status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Unlock the Vehicle door + +Expected Output: +1. Check Cloud platform updated with Vehicle Unlock status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Vehicle Lock status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Lock the Vehicle door + +Expected Output: +1. Check Cloud platform updated with Vehicle Lock status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Vehicle Lock status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Lock the Vehicle door + +Expected Output: +1. Check Cloud platform updated with Vehicle Lock status from TCM + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Vehicle Unlock remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Vehicle Unlock remote command from App +4. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + UnlockVehicleCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Vehicle Unlock status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Vehicle Unlock remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Vehicle Unlock remote command from App +4. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + UnlockVehicleCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Vehicle Unlock status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Vehicle Lock remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Vehicle Lock remote command from App +4. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + LockVehicleCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Vehicle Lock status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Vehicle Lock remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Vehicle Lock remote command from App +4. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + LockVehicleCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Vehicle Lock status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +  + +Pre-condition: +Lights On/Off - Hazard Lamp + +Test Procedure: +  + +Expected Output: +  + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Hazard lamp On remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Hazard lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Hazard lamp On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Hazard lamp On remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Hazard lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Hazard lamp On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Hazard lamp Off remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Hazard lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Hazard lamp Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Hazard lamp Off remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Hazard lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Hazard lamp Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Hazard lamp On remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Hazard lamp On remote command from App + +Expected Output: +1. Check Hazard lamp On function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Hazard lamp On remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Hazard lamp On remote command from App + +Expected Output: +1. Check Hazard lamp On function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Hazard lamp Off remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Hazard lamp Off remote command from App + +Expected Output: +1. Check Hazard lamp Off function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Hazard lamp Off remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Hazard lamp Off remote command from App + +Expected Output: +1. Check Hazard lamp Off function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Hazard lamp On remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Hazard lamp On remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteHazardCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Hazard lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Hazard lamp On remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Hazard lamp On remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteHazardCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Hazard lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Hazard lamp Off remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Hazard lamp Off remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteHazardCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Hazard lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Hazard lamp Off remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Hazard lamp Off remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteHazardCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Hazard lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Hazard lamp On Command to BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM connector to create BCM Failure +3. Trigger Hazard lamp On remote command from App + +Expected Output: +1. Check Hazard lamp On function not performed +2. Check Hazard lamp On status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Hazard lamp On Command to BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM Fuse to create BCM Failure +3. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check Hazard lamp On function not performed +2. Check Hazard lamp On status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Hazard lamp Off Command to BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM connector to create BCM Failure +3. Trigger Hazard lamp Off remote command from App + +Expected Output: +1. Check Hazard lamp Off function not performed +2. Check Hazard lamp Off status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Hazard lamp Off Command to BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM Fuse to create BCM Failure +3. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check Hazard lamp Off function not performed +2. Check Hazard lamp Off status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Hazard lamp On Command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Hazard lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Hazard lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Hazard lamp On Command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Hazard lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Hazard lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Hazard lamp Off Command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Hazard lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Hazard lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Hazard lamp Off Command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Hazard lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Hazard lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Hazard lamp On remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Hazard lamp On remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Hazard lamp On function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Hazard lamp On remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Hazard lamp On remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Hazard lamp On function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Hazard lamp Off remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Hazard lamp Off remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Hazard lamp Off function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Hazard lamp Off remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Hazard lamp Off remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Hazard lamp Off function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Disconnect the Cloud Platform VPN +3. Turn On Hazard lamp + +Expected Output: +1. Check Cloud platform not updated with Hazard lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Disconnect the Cloud Platform VPN +3. Turn On Hazard lamp + +Expected Output: +1. Check Cloud platform not updated with Hazard lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Disconnect the Cloud Platform VPN +3. Turn On Hazard lamp + +Expected Output: +1. Check Cloud platform not updated with Hazard lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Disconnect the Cloud Platform VPN +3. Turn On Hazard lamp + +Expected Output: +1. Check Cloud platform not updated with Hazard lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Disconnect the Cloud Platform VPN +3. Turn On Hazard lamp + +Expected Output: +1. Check Cloud platform not updated with Hazard lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Disconnect the Cloud Platform VPN +3. Turn On Hazard lamp + +Expected Output: +1. Check Cloud platform not updated with Hazard lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On Hazard lamp +2. Disconnect the Cloud Platform VPN +3. Turn Off Hazard lamp + +Expected Output: +1. Check Cloud platform not updated with Hazard lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On Hazard lamp +2. Disconnect the Cloud Platform VPN +3. Turn Off Hazard lamp + +Expected Output: +1. Check Cloud platform not updated with Hazard lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Turn On Hazard lamp +2. Disconnect the Cloud Platform VPN +3. Turn Off Hazard lamp + +Expected Output: +1. Check Cloud platform not updated with Hazard lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On Hazard lamp +2. Disconnect the Cloud Platform VPN +3. Turn Off Hazard lamp + +Expected Output: +1. Check Cloud platform not updated with Hazard lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On Hazard lamp +2. Disconnect the Cloud Platform VPN +3. Turn Off Hazard lamp + +Expected Output: +1. Check Cloud platform not updated with Hazard lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Turn On Hazard lamp +2. Disconnect the Cloud Platform VPN +3. Turn Off Hazard lamp + +Expected Output: +1. Check Cloud platform not updated with Hazard lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Hazard lamp On remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Hazard lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Check Hazard lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Hazard lamp On remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Hazard lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Check Hazard lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Hazard lamp Off remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Hazard lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Check Hazard lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Hazard lamp Off remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Hazard lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Check Hazard lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Cloud Platform VPN connected properly +3. Turn On Hazard lamp + +Expected Output: +1. Check Cloud platform updated with Hazard lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Cloud Platform VPN connected properly +3. Turn On Hazard lamp + +Expected Output: +1. Check Cloud platform updated with Hazard lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Cloud Platform VPN connected properly +3. Turn On Hazard lamp + +Expected Output: +1. Check Cloud platform updated with Hazard lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Cloud Platform VPN connected properly +3. Turn On Hazard lamp + +Expected Output: +1. Check Cloud platform updated with Hazard lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Cloud Platform VPN connected properly +3. Turn On Hazard lamp + +Expected Output: +1. Check Cloud platform updated with Hazard lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Cloud Platform VPN connected properly +3. Turn On Hazard lamp + +Expected Output: +1. Check Cloud platform updated with Hazard lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On Hazard lamp +3. Cloud Platform VPN connected properly +3. Turn Off Hazard lamp + +Expected Output: +1. Check Cloud platform updated with Hazard lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On Hazard lamp +3. Cloud Platform VPN connected properly +3. Turn Off Hazard lamp + +Expected Output: +1. Check Cloud platform updated with Hazard lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Turn On Hazard lamp +3. Cloud Platform VPN connected properly +3. Turn Off Hazard lamp + +Expected Output: +1. Check Cloud platform updated with Hazard lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On Hazard lamp +3. Cloud Platform VPN connected properly +3. Turn Off Hazard lamp + +Expected Output: +1. Check Cloud platform updated with Hazard lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On Hazard lamp +3. Cloud Platform VPN connected properly +3. Turn Off Hazard lamp + +Expected Output: +1. Check Cloud platform updated with Hazard lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Hazard lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Cloud Platform VPN connected properly +3. Turn Off Hazard lamp + +Expected Output: +1. Check Cloud platform updated with Hazard lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Hazard lamp On remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote Hazard Lamp On remote command from App +4. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Hazard Lamp On status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Hazard lamp On remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote Hazard Lamp On remote command from App +4. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand + UnlockVehicleCommand + RemoteHazardCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Hazard Lamp On status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Hazard lamp Off remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote Hazard Lamp Off remote command from App +4. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Hazard Lamp Off status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Hazard lamp Off remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote Hazard Lamp Off remote command from App +4. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHazardCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Hazard Lamp Off status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +  + +Pre-condition: +Lights On/Off - Approach Lamp + +Test Procedure: +  + +Expected Output: +  + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Approach lamp On remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Approach lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Approach lamp On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Approach lamp On remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Approach lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Approach lamp On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Approach lamp Off remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Approach lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Approach lamp Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Approach lamp Off remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Approach lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Approach lamp Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Approach lamp On remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Approach lamp On remote command from App + +Expected Output: +1. Check Approach lamp On function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Approach lamp On remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Approach lamp On remote command from App + +Expected Output: +1. Check Approach lamp On function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Approach lamp Off remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Approach lamp Off remote command from App + +Expected Output: +1. Check Approach lamp Off function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Approach lamp Off remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Approach lamp Off remote command from App + +Expected Output: +1. Check Approach lamp Off function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Approach lamp On remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Approach lamp On remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteApproachCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Approach lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Approach lamp On remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Approach lamp On remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteApproachCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Approach lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Approach lamp Off remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Approach lamp Off remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteApproachCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Approach lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Approach lamp Off remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Approach lamp Off remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteApproachCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Approach lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Approach lamp On Command to BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM connector to create BCM Failure +3. Trigger Approach lamp On remote command from App + +Expected Output: +1. Check Approach lamp On function not performed +2. Check Approach lamp On status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Approach lamp On Command to BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM Fuse to create BCM Failure +3. Trigger Vehicle Unlock remote command from App + +Expected Output: +1. Check Approach lamp On function not performed +2. Check Approach lamp On status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Approach lamp Off Command to BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM connector to create BCM Failure +3. Trigger Approach lamp Off remote command from App + +Expected Output: +1. Check Approach lamp Off function not performed +2. Check Approach lamp Off status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Approach lamp Off Command to BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM Fuse to create BCM Failure +3. Trigger Approach lamp Off remote command from App + +Expected Output: +1. Check Approach lamp Off function not performed +2. Check Approach lamp Off status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Approach lamp On Command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Approach lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Approach lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Approach lamp On Command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Approach lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Approach lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Approach lamp Off Command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Approach lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Approach lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Approach lamp Off Command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Approach lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Approach lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Approach lamp On remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Approach lamp On remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Approach lamp On function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Approach lamp On remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Approach lamp On remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Approach lamp On function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Approach lamp Off remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Approach lamp Off remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Approach lamp Off function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Approach lamp Off remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Approach lamp Off remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Approach lamp Off function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Disconnect the Cloud Platform VPN +3. Turn On Approach lamp + +Expected Output: +1. Check Cloud platform not updated with Approach lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Disconnect the Cloud Platform VPN +3. Turn On Approach lamp + +Expected Output: +1. Check Cloud platform not updated with Approach lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Disconnect the Cloud Platform VPN +3. Turn On Approach lamp + +Expected Output: +1. Check Cloud platform not updated with Approach lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Disconnect the Cloud Platform VPN +3. Turn On Approach lamp + +Expected Output: +1. Check Cloud platform not updated with Approach lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Disconnect the Cloud Platform VPN +3. Turn On Approach lamp + +Expected Output: +1. Check Cloud platform not updated with Approach lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Disconnect the Cloud Platform VPN +3. Turn On Approach lamp + +Expected Output: +1. Check Cloud platform not updated with Approach lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On Approach lamp +3. Disconnect the Cloud Platform VPN +4. Turn Off Approach lamp + +Expected Output: +1. Check Cloud platform not updated with Approach lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On Approach lamp +3. Disconnect the Cloud Platform VPN +4. Turn Off Approach lamp + +Expected Output: +1. Check Cloud platform not updated with Approach lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Turn On Approach lamp +3. Disconnect the Cloud Platform VPN +4. Turn Off Approach lamp + +Expected Output: +1. Check Cloud platform not updated with Approach lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On Approach lamp +2. Disconnect the Cloud Platform VPN +3. Turn Off Approach lamp + +Expected Output: +1. Check Cloud platform not updated with Approach lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On Approach lamp +3. Disconnect the Cloud Platform VPN +4. Turn Off Approach lamp + +Expected Output: +1. Check Cloud platform not updated with Approach lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Turn On Approach lamp +3. Disconnect the Cloud Platform VPN +4. Turn Off Approach lamp + +Expected Output: +1. Check Cloud platform not updated with Approach lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Approach lamp On remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Approach lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Check Approach lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Approach lamp On remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Approach lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Check Approach lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Approach lamp Off remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Approach lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Check Approach lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Approach lamp Off remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Approach lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Check Approach lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Cloud Platform VPN connected properly +3. Turn On Approach lamp + +Expected Output: +1. Check Cloud platform updated with Approach lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Cloud Platform VPN connected properly +3. Turn On Approach lamp + +Expected Output: +1. Check Cloud platform updated with Approach lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Cloud Platform VPN connected properly +3. Turn On Approach lamp + +Expected Output: +1. Check Cloud platform updated with Approach lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Cloud Platform VPN connected properly +3. Turn On Approach lamp + +Expected Output: +1. Check Cloud platform updated with Approach lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Cloud Platform VPN connected properly +3. Turn On Approach lamp + +Expected Output: +1. Check Cloud platform updated with Approach lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Cloud Platform VPN connected properly +3. Turn On Approach lamp + +Expected Output: +1. Check Cloud platform updated with Approach lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On Approach lamp +3. Cloud Platform VPN connected properly +4. Turn Off Approach lamp + +Expected Output: +1. Check Cloud platform updated with Approach lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On Approach lamp +3. Cloud Platform VPN connected properly +4. Turn Off Approach lamp + +Expected Output: +1. Check Cloud platform updated with Approach lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Turn On Approach lamp +3. Cloud Platform VPN connected properly +4. Turn Off Approach lamp + +Expected Output: +1. Check Cloud platform updated with Approach lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Cloud Platform VPN connected properly +3. Turn Off Approach lamp + +Expected Output: +1. Check Cloud platform updated with Approach lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Cloud Platform VPN connected properly +3. Turn Off Approach lamp + +Expected Output: +1. Check Cloud platform updated with Approach lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Approach lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Cloud Platform VPN connected properly +3. Turn Off Approach lamp + +Expected Output: +1. Check Cloud platform updated with Approach lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Approach lamp On remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote Approach lamp On remote command from App +5. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Approach lamp On status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Approach lamp On remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote Approach lamp On remote command from App +5. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Approach lamp On status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Approach lamp Off remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote Approach lamp Off remote command from App +5. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Approach lamp Off status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Approach lamp Off remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote Approach lamp Off remote command from App +5. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemoteApproachCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Approach lamp Off status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +  + +Pre-condition: +Lights On/Off - Position Lamp + +Test Procedure: +  + +Expected Output: +  + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Position lamp On remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Position lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Position lamp On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Position lamp On remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Position lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Position lamp On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Position lamp Off remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Position lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Position lamp Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Position lamp Off remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Position lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Position lamp Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Position lamp On remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Position lamp On remote command from App + +Expected Output: +1. Check Position lamp On function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Position lamp On remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Position lamp On remote command from App + +Expected Output: +1. Check Position lamp On function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Position lamp Off remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Position lamp Off remote command from App + +Expected Output: +1. Check Position lamp Off function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Position lamp Off remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Position lamp Off remote command from App + +Expected Output: +1. Check Position lamp Off function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Position lamp On remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Position lamp On remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemotePositionCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Position lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Position lamp On remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Position lamp On remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemotePositionCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Position lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Position lamp Off remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Position lamp Off remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemotePositionCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Position lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Position lamp Off remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Position lamp Off remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemotePositionCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify Position lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Position lamp On Command to BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM connector to create BCM Failure +3. Trigger Position lamp On remote command from App + +Expected Output: +1. Check Position lamp On function not performed +2. Check Position lamp On status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Position lamp On Command to BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM Fuse to create BCM Failure +3. Trigger Position lamp On remote command from App + +Expected Output: +1. Check Position lamp On function not performed +2. Check Position lamp On status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Position lamp Off Command to BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM connector to create BCM Failure +3. Trigger Position lamp Off remote command from App + +Expected Output: +1. Check Position lamp Off function not performed +2. Check Position lamp Off status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Position lamp Off Command to BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM Fuse to create BCM Failure +3. Trigger Position lamp Off remote command from App + +Expected Output: +1. Check Position lamp Off function not performed +2. Check Position lamp Off status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Position lamp On Command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Position lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Position lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Position lamp On Command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Position lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Position lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Position lamp Off Command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Position lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Position lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Position lamp Off Command to False BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Trigger Position lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify Position lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Position lamp On remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Position lamp On remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Position lamp On function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Position lamp On remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Position lamp On remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Position lamp On function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Position lamp Off remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Position lamp Off remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Position lamp Off function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Position lamp Off remote command to TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Position lamp Off remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Position lamp Off function not performed +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Disconnect the Cloud Platform VPN +3. Turn On Position lamp + +Expected Output: +1. Check Cloud platform not updated with Position lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Disconnect the Cloud Platform VPN +3. Turn On Position lamp + +Expected Output: +1. Check Cloud platform not updated with Position lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Disconnect the Cloud Platform VPN +3. Turn On Position lamp + +Expected Output: +1. Check Cloud platform not updated with Position lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Disconnect the Cloud Platform VPN +3. Turn On Position lamp + +Expected Output: +1. Check Cloud platform not updated with Position lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Disconnect the Cloud Platform VPN +3. Turn On Position lamp + +Expected Output: +1. Check Cloud platform not updated with Position lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp On status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Disconnect the Cloud Platform VPN +3. Turn On Position lamp + +Expected Output: +1. Check Cloud platform not updated with Position lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On Position lamp +3. Disconnect the Cloud Platform VPN +4. Turn Off Position lamp + +Expected Output: +1. Check Cloud platform not updated with Position lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On Position lamp +3. Disconnect the Cloud Platform VPN +4. Turn Off Position lamp + +Expected Output: +1. Check Cloud platform not updated with Position lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Turn On Position lamp +3. Disconnect the Cloud Platform VPN +4. Turn Off Position lamp + +Expected Output: +1. Check Cloud platform not updated with Position lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On Position lamp +3. Disconnect the Cloud Platform VPN +4. Turn Off Position lamp + +Expected Output: +1. Check Cloud platform not updated with Position lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On Position lamp +3. Disconnect the Cloud Platform VPN +4. Turn Off Position lamp + +Expected Output: +1. Check Cloud platform not updated with Position lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp Off status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Turn On Position lamp +3. Disconnect the Cloud Platform VPN +4. Turn Off Position lamp + +Expected Output: +1. Check Cloud platform not updated with Position lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Position lamp On remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Position lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Check Position lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Position lamp On remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Position lamp On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Check Position lamp On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Position lamp Off remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Position lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Check Position lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Position lamp Off remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger Position lamp Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Check Position lamp Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Cloud Platform VPN connected properly +3. Turn On Position lamp + +Expected Output: +1. Check Cloud platform updated with Position lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Cloud Platform VPN connected properly +3. Turn On Position lamp + +Expected Output: +1. Check Cloud platform updated with Position lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Cloud Platform VPN connected properly +3. Turn On Position lamp + +Expected Output: +1. Check Cloud platform updated with Position lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Cloud Platform VPN connected properly +3. Turn On Position lamp + +Expected Output: +1. Check Cloud platform updated with Position lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Cloud Platform VPN connected properly +3. Turn On Position lamp + +Expected Output: +1. Check Cloud platform updated with Position lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp On status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Cloud Platform VPN connected properly +3. Turn On Position lamp + +Expected Output: +1. Check Cloud platform updated with Position lamp On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On Position lamp +3. Cloud Platform VPN connected properly +4. Turn Off Position lamp + +Expected Output: +1. Check Cloud platform updated with Position lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On Position lamp +3. Cloud Platform VPN connected properly +4. Turn Off Position lamp + +Expected Output: +1. Check Cloud platform updated with Position lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Turn On Position lamp +3. Cloud Platform VPN connected properly +4. Turn Off Position lamp + +Expected Output: +1. Check Cloud platform updated with Position lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On Position lamp +3. Cloud Platform VPN connected properly +4. Turn Off Position lamp + +Expected Output: +1. Check Cloud platform updated with Position lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On Position lamp +3. Cloud Platform VPN connected properly +4. Turn Off Position lamp + +Expected Output: +1. Check Cloud platform updated with Position lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Position lamp Off status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Turn On Position lamp +3. Cloud Platform VPN connected properly +4. Turn Off Position lamp + +Expected Output: +1. Check Cloud platform updated with Position lamp Off status from TCM + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Position lamp On remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote Position lamp On remote command from App +5. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Position lamp On status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Position lamp On remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote Position lamp On remote command from App +5. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Position lamp On status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Position lamp Off remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote Position lamp Off remote command from App +5. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Position lamp Off status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Position lamp Off remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote Position lamp Off remote command from App +5. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemotePositionCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check Position lamp Off status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Pre-condition: +AC On/Off + +======================================== + +Test Description: +Test case to verify TCM behaviour when AC On remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger AC On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Wakeup BCM by activating hardwire wakeup line +3. BCM Wakeup related ECU FATC +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify AC On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when AC On remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger AC On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Wakeup BCM by activating hardwire wakeup line +3. BCM Wakeup related ECU FATC +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify AC On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when AC Off remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger AC Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Wakeup BCM by activating hardwire wakeup line +3. BCM Wakeup related ECU FATC +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify AC Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when AC Off remote comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger AC Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Wakeup BCM by activating hardwire wakeup line +3. BCM Wakeup related ECU FATC +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify AC Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when AC On remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger AC On remote command from App + +Expected Output: +1. Check AC On function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when AC On remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger AC On remote command from App + +Expected Output: +1. Check AC On function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when AC Off remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger AC Off remote command from App + +Expected Output: +1. Check AC Off function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when AC Off remote comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger AC Off remote command from App + +Expected Output: +1. Check AC Off function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate AC On remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger AC On remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteEngAcCommand +3. Wakeup BCM by activating hardwire wakeup line +4. BCM Wakeup related ECU FATC +5. Publish TCU_NMPDU message over CAN +6. Check Telematics event RC4 message on Trace +7. Verify AC On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate AC On remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger AC On remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteEngAcCommand +3. Wakeup BCM by activating hardwire wakeup line +4. BCM Wakeup related ECU FATC +5. Publish TCU_NMPDU message over CAN +6. Check Telematics event RC4 message on Trace +7. Verify AC On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate AC Off remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger AC Off remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteEngAcCommand +3. Wakeup BCM by activating hardwire wakeup line +4. BCM Wakeup related ECU FATC +5. Publish TCU_NMPDU message over CAN +6. Check Telematics event RC4 message on Trace +7. Verify AC Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate AC Off remote comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger AC Off remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteEngAcCommand +3. Wakeup BCM by activating hardwire wakeup line +4. BCM Wakeup related ECU FATC +5. Publish TCU_NMPDU message over CAN +6. Check Telematics event RC4 message on Trace +7. Verify AC Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM AC On remote command to FATC Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the FATC connector to create FATC Failure +3. Trigger AC On remote command from App + +Expected Output: +1. Check AC On function not performed +2. Check AC On status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM AC On remote command to FATC Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the FATC Fuse to create FATC Failure +3. Trigger AC On remote command from App + +Expected Output: +1. Check AC On function not performed +2. Check AC On status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM AC Off remote command to FATC Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the FATC connector to create FATC Failure +3. Trigger AC Off remote command from App + +Expected Output: +1. Check AC Off function not performed +2. Check AC Off status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM AC Off remote command to FATC Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the FATC Fuse to create FATC Failure +3. Trigger AC Off remote command from App + +Expected Output: +1. Check AC Off function not performed +2. Check AC Off status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM AC On remote command to False FATC Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure FATC connectors are properly connected +3. Trigger AC On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Wakeup BCM by activating hardwire wakeup line +3. BCM Wakeup related ECU FATC +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify AC On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM AC On remote command to False FATC Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure FATC connectors are properly connected +3. Trigger AC On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Wakeup BCM by activating hardwire wakeup line +3. BCM Wakeup related ECU FATC +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify AC On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM AC Off remote command to False FATC Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure FATC connectors are properly connected +3. Trigger AC Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Wakeup BCM by activating hardwire wakeup line +3. BCM Wakeup related ECU FATC +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify AC Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM AC Off remote command to False FATC Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure FATC connectors are properly connected +3. Trigger AC Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Wakeup BCM by activating hardwire wakeup line +3. BCM Wakeup related ECU FATC +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify AC Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send AC On remote command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger AC On remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check AC On function not performed +3. Check the TImed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send AC On remote command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger AC On remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check AC On function not performed +3. Check the TImed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send AC Off remote command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger AC Off remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check AC Off function not performed +3. Check the TImed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send AC Off remote command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger AC Off remote command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check AC Off function not performed +3. Check the TImed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive AC On command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Disconnect the Cloud Platform VPN +3. Turn On AC + +Expected Output: +1. Check Cloud platform not updated with AC On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive AC On command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Disconnect the Cloud Platform VPN +3. Turn On AC + +Expected Output: +1. Check Cloud platform not updated with AC On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive AC On command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Disconnect the Cloud Platform VPN +3. Turn On AC + +Expected Output: +1. Check Cloud platform not updated with AC On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive AC On command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Disconnect the Cloud Platform VPN +3. Turn On AC + +Expected Output: +1. Check Cloud platform not updated with AC On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive AC On command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Disconnect the Cloud Platform VPN +3. Turn On AC + +Expected Output: +1. Check Cloud platform not updated with AC On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive AC On command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Disconnect the Cloud Platform VPN +3. Turn On AC + +Expected Output: +1. Check Cloud platform not updated with AC On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive AC Off command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On AC +3. Disconnect the Cloud Platform VPN +4. Turn Off AC + +Expected Output: +1. Check Cloud platform not updated with AC Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive AC Off command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On AC +3. Disconnect the Cloud Platform VPN +4. Turn Off AC + +Expected Output: +1. Check Cloud platform not updated with AC Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive AC Off command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Turn On AC +3. Disconnect the Cloud Platform VPN +4. Turn Off AC + +Expected Output: +1. Check Cloud platform not updated with AC Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive AC Off command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On AC +3. Disconnect the Cloud Platform VPN +4. Turn Off AC + +Expected Output: +1. Check Cloud platform not updated with AC Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive AC Off command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On AC +3. Disconnect the Cloud Platform VPN +4. Turn Off AC + +Expected Output: +1. Check Cloud platform not updated with AC Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive AC Off command status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Turn On AC +3. Disconnect the Cloud Platform VPN +4. Turn Off AC + +Expected Output: +1. Check Cloud platform not updated with AC Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send AC On remote command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger AC On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Check AC On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send AC On remote command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger AC On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Check AC On status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send AC Off remote command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger AC Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Check AC Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send AC Off remote command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Cloud Platform VPN connected properly +3. Trigger AC Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Check AC Off status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receiving AC On command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Cloud Platform VPN connected properly +3. Turn On AC + +Expected Output: +1. Check Cloud platform updated with AC On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receiving AC On command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Cloud Platform VPN connected properly +3. Turn On AC + +Expected Output: +1. Check Cloud platform updated with AC On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receiving AC On command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Cloud Platform VPN connected properly +3. Turn On AC + +Expected Output: +1. Check Cloud platform updated with AC On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receiving AC On command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Cloud Platform VPN connected properly +3. Turn On AC + +Expected Output: +1. Check Cloud platform updated with AC On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receiving AC On command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Cloud Platform VPN connected properly +3. Turn On AC + +Expected Output: +1. Check Cloud platform updated with AC On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receiving AC On command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Cloud Platform VPN connected properly +3. Turn On AC + +Expected Output: +1. Check Cloud platform updated with AC On status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receiving AC Off command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On AC +3. Cloud Platform VPN connected properly +3. Turn Off AC + +Expected Output: +1. Check Cloud platform updated with AC Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receiving AC Off command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On AC +3. Cloud Platform VPN connected properly +3. Turn Off AC + +Expected Output: +1. Check Cloud platform updated with AC Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receiving AC Off command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Turn On AC +3. Cloud Platform VPN connected properly +3. Turn Off AC + +Expected Output: +1. Check Cloud platform updated with AC Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receiving AC Off command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Turn On AC +3. Cloud Platform VPN connected properly +3. Turn Off AC + +Expected Output: +1. Check Cloud platform updated with AC Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receiving AC Off command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Turn On AC +3. Cloud Platform VPN connected properly +3. Turn Off AC + +Expected Output: +1. Check Cloud platform updated with AC Off status from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receiving AC Off command status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Turn On AC +3. Cloud Platform VPN connected properly +3. Turn Off AC + +Expected Output: +1. Check Cloud platform updated with AC Off status from TCM + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for AC On remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote AC On remote command from App +5. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check AC On status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for AC On remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote AC On remote command from App +5. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check AC On status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for AC Off remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote AC Off remote command from App +5. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check AC Off status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for AC Off remote command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote AC Off remote command from App +5. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemoteEngAcCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. TCM perform all the remote Command +6. Check AC Off status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +  + +Pre-condition: +Panic Notification + +Test Procedure: +  + +Expected Output: +  + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Panic Notification initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Powermode State = 1 +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check the following Message in the Cloud: + ForcePanicAlert +2. Verify the Panic Notification is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Panic Notification initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Accessory + Powermode State = 4 +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check the following Message in the Cloud: + ForcePanicAlert +2. Verify the Panic Notification is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Panic Notification initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Accessory Delay + Powermode State = 5 +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check the following Message in the Cloud: + ForcePanicAlert +2. Verify the Panic Notification is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Panic Notification initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Powermode State = 1 +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check the following Message in the Cloud: + ForcePanicAlert +2. Verify the Panic Notification is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Panic Notification initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Accessory + Powermode State = 4 +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check the following Message in the Cloud: + ForcePanicAlert +2. Verify the Panic Notification is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Panic Notification initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Accessory Delay + Powermode State = 5 +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check the following Message in the Cloud: + ForcePanicAlert +2. Verify the Panic Notification is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Panic Notification initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check Vehicle Panic Notification not sent + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Panic Notification initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check Vehicle Panic Notification not sent + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Vehicle Panic Notification. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Set the Below signals from BCM + ForcePanicStatus = 1 +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + ForcePanicAlert +3. Verify the Panic Notification is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Vehicle Panic Notification. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Accessory + Power mode state = 4 +3. Set the Below signals from BCM + ForcePanicStatus = 1 +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + ForcePanicAlert +3. Verify the Panic Notification is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Vehicle Panic Notification. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Accessory Delay + Power mode state = 5 +3. Set the Below signals from BCM + ForcePanicStatus = 1 +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + ForcePanicAlert +3. Verify the Panic Notification is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Vehicle Panic Notification. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Set the Below signals from BCM + ForcePanicStatus = 1 +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + ForcePanicAlert +3. Verify the Panic Notification is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Vehicle Panic Notification. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Accessory + Power mode state = 4 +3. Set the Below signals from BCM + ForcePanicStatus = 1 +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + ForcePanicAlert +3. Verify the Panic Notification is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Vehicle Panic Notification. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Accessory Delay + Power mode state = 5 +3. Set the Below signals from BCM + ForcePanicStatus = 1 +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + ForcePanicAlert +3. Verify the Panic Notification is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Panic Notification status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check Cloud platform has not updated with Vehicle Panic Notification from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Panic Notification status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory + Power mode state = 4 +2. Disconnect the Cloud Platform VPN +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check Cloud platform has not updated with Vehicle Panic Notification from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Panic Notification status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Power mode state = 5 +2. Disconnect the Cloud Platform VPN +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check Cloud platform has not updated with Vehicle Panic Notification from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Panic Notification status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check Cloud platform has not updated with Vehicle Panic Notification from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Panic Notification status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory + Power mode state = 4 +2. Disconnect the Cloud Platform VPN +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check Cloud platform has not updated with Vehicle Panic Notification from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Panic Notification status from TCM while server is having distrubance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Power mode state = 5 +2. Disconnect the Cloud Platform VPN +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check Cloud platform has not updated with Vehicle Panic Notification from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Panic Notification status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure the Cloud Platform VPN connected properly +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check Cloud platform updated with Vehicle Panic Notification from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Panic Notification status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory + Power mode state = 4 +2. Ensure the Cloud Platform VPN connected properly +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check Cloud platform updated with Vehicle Panic Notification from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Panic Notification status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Power mode state = 5 +2. Ensure the Cloud Platform VPN connected properly +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check Cloud platform updated with Vehicle Panic Notification from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Panic Notification status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure the Cloud Platform VPN connected properly +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check Cloud platform updated with Vehicle Panic Notification from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Panic Notification status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory + Power mode state = 4 +2. Ensure the Cloud Platform VPN connected properly +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check Cloud platform updated with Vehicle Panic Notification from TCM + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to receive Panic Notification status from TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Power mode state = 5 +2. Ensure the Cloud Platform VPN connected properly +3. Set the Below signals from BCM + ForcePanicStatus = 1 + +Expected Output: +1. Check Cloud platform updated with Vehicle Panic Notification from TCM + +======================================== + +======================================== + +Pre-condition: +AUTO DTC + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Electric power steering status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Electric power steering status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Electric power steering status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Electric power steering status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Electric power steering status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Electric power steering status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Electric power steering status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Electric power steering status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Airbag status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Airbag status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Airbag status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Airbag status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Airbag status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Airbag status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Airbag status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Airbag status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Brake system status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Brake system status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Brake system status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Brake system status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Brake system status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Brake system status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Brake system status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Brake system status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Power Train status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Power Train Status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Power Train status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Power Train Status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Power Train status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Power Train Status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Power Train status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Power Train Status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Service Due date initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Service Due date showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Service Due date initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Service Due date showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Service Due date initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Service Due date showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Service Due date initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Service Due date showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Electric power steering status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Electric power steering status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Electric power steering status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Electric power steering status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Electric power steering status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Electric power steering status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Electric power steering status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Electric power steering status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Airbag status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Airbag status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Airbag status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Airbag status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Airbag status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Airbag status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Airbag status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Airbag status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Brake system status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Brake system status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Brake system status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Brake system status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Brake system status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Brake system status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Brake system status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Brake system status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Power Train status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Power Train Status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Power Train status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Power Train Status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Power Train status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Power Train Status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Power Train status initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Power Train Status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Service Due date initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Service Due date showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Service Due date initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Service Due date showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Service Due date initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Service Due date showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Service Due date initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Log into mobile app +4. Run mobile diagnostics + + +Expected Output: +1. Check the Service Due date showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Electric power steering status initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Run mobile diagnostics + + +Expected Output: +1. Check the Electric power sterring status data is not updated in Diagnostic Report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Airbag status initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Run mobile diagnostics + + +Expected Output: +1. Check the Airbag status data is not updated in Diagnostic Report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Brake system status initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Run mobile diagnostics + + +Expected Output: +1. Check the Brake System status data is not updated in Diagnostic Report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Power Train status initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Run mobile diagnostics + + +Expected Output: +1. Check the Power Train status data is not updated in Diagnostic Report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Service Due Date initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Run mobile diagnostics + + +Expected Output: +1. Check the Service Due date is not updated in Diagnostic Report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Electric power steering status initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Run mobile diagnostics + + +Expected Output: +1. Check the Electric power sterring status data is not updated in Diagnostic Report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Airbag status initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Run mobile diagnostics + + +Expected Output: +1. Check the Airbag status data is not updated in Diagnostic Report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Brake system status initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Run mobile diagnostics + + +Expected Output: +1. Check the Brake System status data is not updated in Diagnostic Report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Power Train status initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Run mobile diagnostics + + +Expected Output: +1. Check the Power Train status data is not updated in Diagnostic Report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Auto DTC for Service Due Date initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Run mobile diagnostics + + +Expected Output: +1. Check the Service Due date is not updated in Diagnostic Report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Auto DTC for Electric Power Steering + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the Electric power sterring status data showing on daignostic report. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Auto DTC for Airbag status + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the Airbag status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Auto DTC for Bake system status + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the Brake System status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Auto DTC for Power train status + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the Power Train status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Auto DTC for service due date + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the Service due date status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Auto DTC for Electric Power Steering + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the Electric power sterring status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Auto DTC for Airbag status + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the Airbag status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Auto DTC for Bake system status + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the Brake System status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Auto DTC for Power train status + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the Power Train status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Auto DTC for service due date + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Run mobile diagnostics +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the Service due date status data showing on daignostic report. + +======================================== + +======================================== + +Pre-condition: +Nearest Service Station + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Nearest Service Station initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Search for the nearest Tata Motors Service stations + +Expected Output: +1. Check the following Message in the Cloud: + Nearest Service Station +2. Verify Nearest Service Station status is shown in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Nearest Service Station initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Log into mobile app +4. Search for the nearest Tata Motors Service stations + +Expected Output: +1. Check the following Message in the Cloud: + Nearest Service Station +2. Verify Nearest Service Station status is shown in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Nearest Service Station initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Log into mobile app +4. Search for the nearest Tata Motors Service stations + +Expected Output: +1. Check the following Message in the Cloud: + Nearest Service Station +2. Verify Nearest Service Station status is shown in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Nearest Service Station initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 8 +3. Log into mobile app +4. Search for the nearest Tata Motors Service stations + +Expected Output: +1. Check the following Message in the Cloud: + Nearest Service Station +2. Verify Nearest Service Station status is shown in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Nearest Service Station initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Search for the nearest Tata Motors Service stations + +Expected Output: +1. Check the following Message in the Cloud: + Nearest Service Station +2. Verify Nearest Service Station status is shown in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Nearest Service Station initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Log into mobile app +4. Search for the nearest Tata Motors Service stations + +Expected Output: +1. Check the following Message in the Cloud: + Nearest Service Station +2. Verify Nearest Service Station status is shown in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Nearest Service Station initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Log into mobile app +4. Search for the nearest Tata Motors Service stations + +Expected Output: +1. Check the following Message in the Cloud: + Nearest Service Station +2. Verify Nearest Service Station status is shown in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Nearest Service Station initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 8 +3. Log into mobile app +4. Search for the nearest Tata Motors Service stations + +Expected Output: +1. Check the following Message in the Cloud: + Nearest Service Station +2. Verify Nearest Service Station status is shown in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Nearest Service Station initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Search for the nearest Tata Motors Service stations + +Expected Output: +1. Check Nearest Service Station function not performed + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Nearest Service Station initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Search for the nearest Tata Motors Service stations + +Expected Output: +1. Check Nearest Service Station function not performed + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Nearest Service Station + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Search for the nearest Tata Motors Service stations +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + Nearest Service Station +3. Verify Nearest Service Station status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Nearest Service Station + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Search for the nearest Tata Motors Service stations +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + Nearest Service Station +3. Verify Nearest Service Station status is updated in the Mobile App + +======================================== + +======================================== + +Pre-condition: +Car Health + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Car Health initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Car Health initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Car Health initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Car Health initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Car Health initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Car Health initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Car Health initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Car Health initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Car Health initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Check Car Health + +Expected Output: +1. Check Car Health function not performed + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Car Health initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Check Car Health + +Expected Output: +1. Check Car Health function not performed + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Car Health + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Check Car Health +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + Car Health +3. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Car Health + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Check Car Health +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + Car Health +3. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Car Health to BCM failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM connector to create BCM Failure +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check Car Health function not performed +2. Check Car Health status is not updated in the Mobile App +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Car Health to BCM failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM Fuse to create BCM Failure +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check Car Health function not performed +2. Check Car Health status is not updated in the Mobile App +3. Check the Timed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Car Health Status to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Car Health Status to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Car Health Status to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Car Health Status to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Car Health Status to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Car Health Status to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Car Health Status to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Car Health Status to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Check Car Health + +Expected Output: +1. Check the following Message in the Cloud: + Car Health +2. Verify Car Health status is updated in the Mobile App + +======================================== + +======================================== + +Pre-condition: +Voice Command + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Voice Command initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Perform Voice Command through infotainment + +Expected Output: +1. Check the following Message in the Cloud: + Voice Command +2. Verify Voice Command status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Voice Command initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Perform Voice Command through infotainment + +Expected Output: +1. Check the following Message in the Cloud: + Voice Command +2. Verify Voice Command status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Voice Command initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Perform Voice Command through infotainment + +Expected Output: +1. Check the following Message in the Cloud: + Voice Command +2. Verify Voice Command status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Voice Command initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignition On + Power mode state = 6 +3. Perform Voice Command through infotainment + +Expected Output: +1. Check the following Message in the Cloud: + Voice Command +2. Verify Voice Command status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Voice Command initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Perform Voice Command through infotainment + +Expected Output: +1. Check the following Message in the Cloud: + Voice Command +2. Verify Voice Command status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Voice Command initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Perform Voice Command through infotainment + +Expected Output: +1. Check the following Message in the Cloud: + Voice Command +2. Verify Voice Command status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Voice Command initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Perform Voice Command through infotainment + +Expected Output: +1. Check Voice Command function not shown in HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Voice Command initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Perform Voice Command through infotainment + +Expected Output: +1. Check Voice Command function not shown in HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Voice Command + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Perform Voice Command through infotainment +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + Voice Command. +3. Verify Voice Command status is updated in the HU. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Voice Command + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Perform Voice Command through infotainment +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + Voice Command. +3. Verify Voice Command status is updated in the HU. + +======================================== + +======================================== + +Pre-condition: +E Call + +======================================== + +Test Description: +Testcase to verify TCM behaviour when E call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Perform E call through hardpress button + + +Expected Output: +1. Check the following Message in the Cloud: + E call +2. Verify E call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when E call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Igntion On + Power mode state = 6 +3. Perform E call through hardpress button + + +Expected Output: +1. Check the following Message in the Cloud: + E call +2. Verify E call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when E call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Perform E call through hardpress button + + +Expected Output: +1. Check the following Message in the Cloud: + E call +2. Verify E call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when E call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Perform E call through hardpress button + + +Expected Output: +1. Check the following Message in the Cloud: + E call +2. Verify E call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when E call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Perform E call through hardpress button + + +Expected Output: +1. Check the following Message in the Cloud: + E call +2. Verify E call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when E call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Igntion On + Power mode state = 6 +3. Perform E call through hardpress button + + +Expected Output: +1. Check the following Message in the Cloud: + E call +2. Verify E call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when E call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Perform E call through hardpress button + + +Expected Output: +1. Check the following Message in the Cloud: + E call +2. Verify E call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when E call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Perform E call through hardpress button + + +Expected Output: +1. Check the following Message in the Cloud: + E call +2. Verify E call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when E call initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Perform E call fom hardpress button + +Expected Output: +1. Check E call function not shown in HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when E call initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Perform E call fom hardpress button + +Expected Output: +1. Check E call function not shown in HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate E call + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Perform E call from hardpress button +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + E call. +3. Verify E call is updated in the HU. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate E call + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Perform E call from hardpress button +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + E call. +3. Verify E call is updated in the HU. + +======================================== + +======================================== + +Pre-condition: +B Call + +======================================== + +Test Description: +Testcase to verify TCM behaviour when B call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Perform B call through Softpress button + + +Expected Output: +1. Check the following Message in the Cloud: + B call +2. Verify B call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when B call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Igntion On + Power mode state = 6 +3. Perform B call through Softpress button + + +Expected Output: +1. Check the following Message in the Cloud: + B call +2. Verify B call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when B call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Perform B call through Softpress button + + +Expected Output: +1. Check the following Message in the Cloud: + B call +2. Verify B call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when B call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Perform B call through Softpress button + + +Expected Output: +1. Check the following Message in the Cloud: + B call +2. Verify B call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when B call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Perform B call through Softpress button + + +Expected Output: +1. Check the following Message in the Cloud: + B call +2. Verify B call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when B call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Igntion On + Power mode state = 6 +3. Perform B call through Softpress button + + +Expected Output: +1. Check the following Message in the Cloud: + B call +2. Verify B call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when B call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Perform B call through Softpress button + + +Expected Output: +1. Check the following Message in the Cloud: + B call +2. Verify B call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when B call initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Perform B call through Softpress button + + +Expected Output: +1. Check the following Message in the Cloud: + B call +2. Verify B call status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when B call initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Perform B call fom Softpress button + +Expected Output: +1. Check B call function not shown in HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when B call initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Perform B call fom Softpress button + +Expected Output: +1. Check B call function not shown in HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate B call + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Perform B call from Softpress button +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + B call. +3. Verify B call is updated in the HU. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate B call + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Perform B call from Softpress button +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + B call. +3. Verify B call is updated in the HU. + +======================================== + +======================================== + +Pre-condition: +Driving Pattern Analysis + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Driving Pattern Analysis initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Log into mobile app +4. Check Driving Pattern Analysis + +Expected Output: +1. Check Driver Behaviour is updated in mobile app. +2. check driver behaviou is as per the requirement. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Driving Pattern Analysis initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Log into mobile app +4. Check Driving Pattern Analysis + +Expected Output: +1. Check Driver Behaviour is updated in mobile app. +2. Check driver behaviour is as per the requirement. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Driving Pattern Analysis initiated during low level boot up + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Check Driving Pattern Analysis + +Expected Output: +1. Check Driving Pattern Analysis is not updated in mobile app. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Driving Pattern Analysis initiated during low level boot up + + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Log into mobile app +3. Check Driving Pattern Analysis + +Expected Output: +1. Check Driving Pattern Analysis is not shown in mobile app. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Driving Pattern Analysis + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Check Driving Pattern Analysis +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + Driving Pattern Analysis +3. Verify Driving Pattern Analysis status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM bootup time to initiate Driving Pattern Analysis + + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Log into mobile app +4. Check Driving Pattern Analysis +5. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + Driving Pattern Analysis +3. Verify Driving Pattern Analysis status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Driving Pattern Analysis BCM failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM connector to create BCM Failure +3. Log into mobile app +4. Check Driving Pattern Analysis + +Expected Output: +1. Check Driving Pattern Analysis status is not updated in the Mobile App. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Driving Pattern Analysis BCM failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM Fuse to create BCM Failure +3. Log into mobile app +4. Check Driving Pattern Analysis + +Expected Output: +1. Check Driving Pattern Analysis status is not updated in the Mobile App. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Driving Pattern Analysis to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Check Driving Pattern Analysis + +Expected Output: +1. Check Driver Behaviour is updated in mobile app. +2. Check driver behaviour is as per the requirement. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Driving Pattern Analysis to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Check Driving Pattern Analysis + +Expected Output: +1. Check Driver Behaviour is updated in mobile app. +2. Check driver behaviour is as per the requirement. + +======================================== + +======================================== + +Pre-condition: +Community Help + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Community help initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Initiate Community Help through hardpress button + +Expected Output: +1. Check the following Message in the Cloud: + Community Help +2. Verify Community Help status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Community help initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignitio On + Power mode state = 6 +3. Initiate Community Help through hardpress button + +Expected Output: +1. Check the following Message in the Cloud: + Community Help +2. Verify Community Help status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Community help initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Initiate Community Help through hardpress button + +Expected Output: +1. Check the following Message in the Cloud: + Community Help +2. Verify Community Help status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Community help initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Initiate Community Help through hardpress button + +Expected Output: +1. Check the following Message in the Cloud: + Community Help +2. Verify Community Help status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Community help initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Initiate Community Help through hardpress button + +Expected Output: +1. Check the following Message in the Cloud: + Community Help +2. Verify Community Help status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Community help initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Ignitio On + Power mode state = 6 +3. Initiate Community Help through hardpress button + +Expected Output: +1. Check the following Message in the Cloud: + Community Help +2. Verify Community Help status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Community help initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Crank + Power mode state = 9 +3. Initiate Community Help through hardpress button + +Expected Output: +1. Check the following Message in the Cloud: + Community Help +2. Verify Community Help status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Community help initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Run + Power mode state = 8 +3. Initiate Community Help through hardpress button + +Expected Output: +1. Check the following Message in the Cloud: + Community Help +2. Verify Community Help status is updated in the HU + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Community help initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Initiate Community Help through hardpress button + +Expected Output: +1. Check Community Help function not performed + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Community help initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Initiate Community Help through hardpress button + +Expected Output: +1. Check Community Help function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM bootup time to initiate Community Help + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Initiate Community Help through hardpress button +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + Community Help +3. Verify Community Help status is updated in the HU. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM bootup time to initiate Community Help + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Initiate Community Help through hardpress button +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + Community Help +3. Verify Community Help status is updated in the HU. + +======================================== + +======================================== + +Pre-condition: +Send the Emergency SOS Event to +pre-configured numbers. + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to BCM failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM connector to create BCM Failure +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were not sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to BCM failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM Fuse to create BCM Failure +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were not sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to false BCM Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Ensure BCM connectors are properly connected +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to PEPS failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the PEPS connector to create PEPS Failure +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were not sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to PEPS failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the PEPS Fuse to create PEPS Failure +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were not sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to false PEPS Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Ensure PEPS connectors are properly connected +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to false PEPS Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Ensure PEPS connectors are properly connected +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to false PEPS Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Ensure PEPS connectors are properly connected +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to false PEPS Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Ignition On + Power mode state = 6 +2. Ensure PEPS connectors are properly connected +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to false PEPS Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Crank + Power mode state = 9 +2. Ensure PEPS connectors are properly connected +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were sent + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM Sending the Emergency SOS Event to pre-configured numbers to false PEPS Failure occurs + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Run + Power mode state = 8 +2. Ensure PEPS connectors are properly connected +3. Log into mobile app +4. Initiate SOS from mobile app + +Expected Output: +1. Check Emergency SOS to pre-configured numbers were sent + +======================================== + +======================================== + +Test Description: +  + +Pre-condition: +Remote Charging On/Off + +Test Procedure: +  + +Expected Output: +  + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote charging On comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Remote Charging On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteChargingCommand +2. Check Telematics event RC4 message on Trace +3. Verify Remote Charging On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote charging On comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Remote Charging On remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteChargingCommand +2. Check Telematics event RC4 message on Trace +3. Verify Remote Charging On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote charging Off comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Remote Charging Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteChargingCommand +2. Check Telematics event RC4 message on Trace +3. Verify Remote Charging Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote charging Off comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Remote Charging Off remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteChargingCommand +2. Check Telematics event RC4 message on Trace +3. Verify Remote Charging Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote chaging On comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Remote Charging On remote command from App + +Expected Output: +1. Check Remote Charging On not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote chaging On comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Remote Charging On remote command from App + +Expected Output: +1. Check Remote Charging On not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote chaging Off comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Remote Charging Off remote command from App + +Expected Output: +1. Check Remote Charging Off not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote chaging Off comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Remote Charging Off remote command from App + +Expected Output: +1. Check Remote Charging Off not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Remote charging On comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Remote Charging On remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + ForcePanicAlert +3. Verify the Panic Notification is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Remote charging On comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Remote Charging On remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteChargingCommand +3. Check Telematics event RC4 message on Trace +4. Verify Remote Charging On is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Remote charging Off comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Remote Charging Off remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteChargingCommand +3. Check Telematics event RC4 message on Trace +4. Verify Remote Charging Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Remote charging Off comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Remote Charging Off remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemoteChargingCommand +3. Check Telematics event RC4 message on Trace +4. Verify Remote Charging Off is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +  + +Pre-condition: +Remote Horn + +Test Procedure: +  + +Expected Output: +  + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Remote Horn comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Vehicle Horn remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHornCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC5 message on Trace +5. Verify Horn status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Remote Horn comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Vehicle Horn remote command from App + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHornCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC5 message on Trace +5. Verify Horn status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Remote Horn comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Vehicle remote Horn command from App + +Expected Output: +1. Check Horn function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Vehicle Remote Horn comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger Vehicle remote Horn command from App + +Expected Output: +1. Check Horn function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Vehicle Remote Horn comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Vehicle remoteHorn command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemortHornCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC5 message on Trace +6. Verify Vehicle Horn Command status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Vehicle Remote Horn comand. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Vehicle remote Horn command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + RemortHornCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC5 message on Trace +6. Verify Vehicle Horn Command status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Vehicle Remote Horn command at BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM connector to create BCM Failure +3. Trigger Vehicle remote Horn command from App + +Expected Output: +1. Check Vehicle Horn Command function not performed +2. Check Vehicle Horn status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM Vehicle Remote Horn command at BCM Failure case + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Unplug the BCM Fuse to create BCM Failure +3. Trigger Vehicle remote Horn command from App + +Expected Output: +1. Check Vehicle Horn Command function not performed +2. Check Vehicle Horn status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Vehicle Horn remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Vehicle remote Horn command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Vehicle Remote Horn function not performed +3. Check the TImed Out response in app + +======================================== + +======================================== + +Test Description: +Testcase to verify TMLCVP (Platform) behaviour to send Vehicle Horn remote command to TCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Disconnect the Cloud Platform VPN +3. Trigger Vehicle remoteHorn command from App + +Expected Output: +1. Check Cloud platform has not sent request to TCM +2. Check Vehicle Remote Horn function not performed +3. Check the TImed Out response in app + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Vehicle Remote Horn command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote Horn command from App +5. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHornCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC5 message on Trace +5. TCM perform all the remote Command +6. Check Remote Horn Command status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour for Vehicle Remote Horn command due to increase in load + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Set the periodic Cycle Time to 10ms in IG +3. Trigger Remote Horn command from App +5. Check the Delay in processing the command by TCM + +Expected Output: +1. Check the following Message in the Cloud: + RemoteHornCommand +2. Wakeup BCM by activating hardwire wakeup line +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC5 message on Trace +5. TCM perform all the remote Command +6. Check Remote Horn Command status is updated in the Mobile App with a delay + +======================================== + +======================================== + +Test Description: +  + +Pre-condition: +Remote Start & Stop + +Test Procedure: +  + +Expected Output: +  + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote Engine Start comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Remote Engine Start command from App + +Expected Output: +1. Check the following Message in the Cloud: + StartEngCommand +2. Wakeup BCM by activating hardwire wakeup line +3. BCM Wakeup related ECU FATC +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify RemoteEngineStart is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote Engine Stop comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Remote Engine Stop command from App + +Expected Output: +1. Check the following Message in the Cloud: + StopEngCommand +2. Wakeup BCM by activating hardwire wakeup line +3. BCM Wakeup related ECU FATC +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify RemoteEngineStop is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote Engine Start comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Remote Engine Start command from App + +Expected Output: +1. Check the following Message in the Cloud: + StartEngCommand +2. Wakeup BCM by activating hardwire wakeup line +3. BCM Wakeup related ECU FATC +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify RemoteEngineStart is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote Engine Stop comand initiated during boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM Is in Normal mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger Remote Engine Stop command from App + +Expected Output: +1. Check the following Message in the Cloud: + StopEngCommand +2. Wakeup BCM by activating hardwire wakeup line +3. BCM Wakeup related ECU FATC +3. Publish TCU_NMPDU message over CAN +4. Check Telematics event RC4 message on Trace +5. Verify RemoteEngineStop is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote Engine Start comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger RemoteEngineStart command from App + +Expected Output: +1. Check RemoteEngineStart function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote Engine Stop comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. TriggerRemoteEngineStop remote command from App + +Expected Output: +1. Check RemoteEngineStop function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote Engine Start comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. Trigger RemoteEngineStart command from App + +Expected Output: +1. Check RemoteEngineStart function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Remote Engine Stop comand initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength + +Test Procedure: +1. Set Voltage Level to 4V in Power supply +2. TriggerRemoteEngineStop remote command from App + +Expected Output: +1. Check RemoteEngineStop function not performed + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Remote Engine Start command. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger RemoteEngineStart remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + StartEngCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify RemoteEngineStart is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Remote Engine Stop command. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger RemoteEngineStop remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + StopEngCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify RemoteEngineStop is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Remote Engine Start command. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger RemoteEngineStart remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + StartEngCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify RemoteEngineStart is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +Test case to verify TCM boot up time to initiate Remote Engine Stop command. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in Deep Sleep mode + +Test Procedure: +1. Set Voltage Level to 9-32V in Power supply +2. Set the Power Mode as Awake + Power mode state = 1 +3. Trigger RemoteEngineStop remote command from App +4. Check TCM bootup time + +Expected Output: +1. Check TCM is taking 40 sec to boot up +2. Check the following Message in the Cloud: + StopEngCommand +3. Wakeup BCM by activating hardwire wakeup line +4. Publish TCU_NMPDU message over CAN +5. Check Telematics event RC4 message on Trace +6. Verify RemoteEngineStop is updated in the Mobile App + +======================================== + +======================================== + +Pre-condition: +Geo-fencing + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 1Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 1Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is entering of Geo-fence radius + +Expected Output: +1. Verify Geofence alert received is removed in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 1Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle moves out of the Geofence. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 1Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already in of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is already in the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 1Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moves out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received is removed in the Mobile App when vehicle is already in the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 1Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already in of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle is already in the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 1Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 1Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving into the Geo-fence radius + +Expected Output: +1. Verify Geofence alert received is removed in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 1Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle moves out of the Geofence. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 1Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is entering in to the set Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is entering into the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 1Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving out of the set Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received is removed in the Mobile App when vehicle is entering into the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 1Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle enters into the Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle moves out of the Geofence. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 10Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 10Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is entering of Geo-fence radius + +Expected Output: +1. Verify Geofence alert received is removed in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 10Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle moves out of the Geofence. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 10Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already in of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is already in the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 10Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moves out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received is removed in the Mobile App when vehicle is already in the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 10Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already in of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle is already in the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 10Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 10Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving into the Geo-fence radius + +Expected Output: +1. Verify Geofence alert received is removed in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 10Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle moves out of the Geofence. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 10Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is entering in to the set Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is entering into the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 10Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving out of the set Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received is removed in the Mobile App when vehicle is entering into the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 10Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle enters into the Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle moves out of the Geofence. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 30Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 30Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is entering of Geo-fence radius + +Expected Output: +1. Verify Geofence alert received is removed in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 30Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle moves out of the Geofence. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 30Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already in of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is already in the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 30Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moves out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received is removed in the Mobile App when vehicle is already in the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 30Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already in of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle is already in the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 30Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 30Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving into the Geo-fence radius + +Expected Output: +1. Verify Geofence alert received is removed in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 30Km through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle moves out of the Geofence. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 30Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is entering in to the set Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is entering into the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 30Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving out of the set Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received is removed in the Mobile App when vehicle is entering into the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Geofencing radius of 30Km through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle enters into the Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle moves out of the Geofence. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User created a customised geofencng area through the Connected Car app using the smartphone map p triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User created a customised geofencng area through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is entering of Geo-fence radius + +Expected Output: +1. Verify Geofence alert received is removed in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User created a customised geofencng area through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle moves out of the Geofence. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User created a customised geofencng area through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already in of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is already in the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User created a customised geofencng area through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moves out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received is removed in the Mobile App when vehicle is already in the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User created a customised geofencng area through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is already in of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle is already in the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User created a customised geofencng area through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User created a customised geofencng area through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving into the Geo-fence radius + +Expected Output: +1. Verify Geofence alert received is removed in the Mobile App when vehicle is out of the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User created a customised geofencng area through the Connected Car app using the smartphone map triggered through the App for vehicle leaving the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving out of Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle moves out of the Geofence. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3 User created a customised geofencng area through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is entering in to the set Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received in the Mobile App when vehicle is entering into the Geofence. + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Geo Fencing is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength. +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9 to 32 Volt in Power supply +2. Turn Ignition On +3. User created a customised geofencng area through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle is moving out of the set Geo-fence radius + +Expected Output: +1. Verify Geofence alert is received is removed in the Mobile App when vehicle is entering into the Geofence. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Geo Fencing initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User created a customised geofencng area through the Connected Car app using the smartphone map triggered through the App for vehicle entering the set area. +4) Turn ON geofence alert via App. +5) Vehicle enters into the Geo-fence radius + +Expected Output: +1. Verify Geofence alert is not received in the Mobile App when vehicle moves out of the Geofence. + + +======================================== + +======================================== + +Pre-condition: +Valet Mode + +======================================== + +Test Description: +Test case to verify TCM behaviour when Valet Parking initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Valet parking radius of 0.5Km through the Connected Car app using the smartphone map +4) Turn ON Valet Parking alert via App. +5) Vehicle moves out of the set area + +Expected Output: +1. Verify Valet parking alert is received in the Mobile App when vehicle moves out of the set radius. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Valet parking is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32Volt in Power supply +2. Turn Ignition On +3. User create a Valet parking radius of 1Km through the Connected Car app using the smartphone map +4) Turn ON Valet Parking alert via App. +5) Vehicle moves out of the set area + +Expected Output: +1. Verify Valet parking alert is received in the Mobile App when vehicle moves out of the set radius. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Valet Parking initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Valet parking radius of 1Km through the Connected Car app using the smartphone map +4) Turn ON Valet Parking alert via App. +5) Vehicle moves out of the set area + +Expected Output: +1. Verify Valet parking alert is received in the Mobile App when vehicle moves out of the set radius. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Valet parking is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32Volt in Power supply +2. Turn Ignition On +3. User create a Valet parking radius of 2Km through the Connected Car app using the smartphone map +4) Turn ON Valet Parking alert via App. +5) Vehicle moves out of the set area + +Expected Output: +1. Verify Valet parking alert is received in the Mobile App when vehicle moves out of the set radius. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Valet Parking initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Valet parking radius of 2Km through the Connected Car app using the smartphone map +4) Turn ON Valet Parking alert via App. +5) Vehicle moves out of the set area + +Expected Output: +1. Verify Valet parking alert is received in the Mobile App when vehicle moves out of the set radius. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Valet parking is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32Volt in Power supply +2. Turn Ignition On +3. User create a Valet parking radius of 3Km through the Connected Car app using the smartphone map +4) Turn ON Valet Parking alert via App. +5) Vehicle moves out of the set area + +Expected Output: +1. Verify Valet parking alert is received in the Mobile App when vehicle moves out of the set radius. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Valet Parking initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4 Volt in Power supply +2. Turn Ignition On +3. User create a Valet parking radius of 3Km through the Connected Car app using the smartphone map +4) Turn ON Valet Parking alert via App. +5) Vehicle moves out of the set area + +Expected Output: +1. Verify Valet parking alert is received in the Mobile App when vehicle moves out of the set radius. + + +======================================== + +======================================== + +Test Description: +Testcase to verify TCM behaviour when Valet parking is initiated during boot up. + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 9-32Volt in Power supply +2. Turn Ignition On +3. User create a Valet parking radius of 4Km through the Connected Car app using the smartphone map +4) Turn ON Valet Parking alert via App. +5) Vehicle moves out of the set area + +Expected Output: +1. Verify Valet parking alert is received in the Mobile App when vehicle moves out of the set radius. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour when Valet Parking initiated during low level boot up + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1. Set Voltage Level to 4Volt in Power supply +2. Turn Ignition On +3. User create a Valet parking radius of 4Km through the Connected Car app using the smartphone map +4) Turn ON Valet Parking alert via App. +5) Vehicle moves out of the set area + +Expected Output: +1. Verify Valet parking alert is received in the Mobile App when vehicle moves out of the set radius. + + +======================================== + +======================================== + +Pre-condition: +Unauthorized Car Access Alert- Intrusion Alert + +======================================== + +Test Description: +Testcase for analyzing the behaviour of TCM for export of Intrusion alert from cloud to app under different mobile preferred network type + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1.Change your phone preferred network type to 2G in mobile from network settings +2. Login to the connected car application and go to the profile Set the Power Mode as Awake + Powermode state = 1 +3. Set the Below signals from BCM + IntrusionInfoState = 1 + IntrusionInfoStateStatus = 0 +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. Verify the IntrusionAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +Testcase for analyzing the behaviour of TCM for export of Intrusion alert from cloud to app under different mobile preferred network type + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1.Change your phone preferred network type to 3G in mobile from network settings +2. Login to the connected car application and go to the profile Set the Power Mode as Awake + Powermode state = 1 +3. Set the Below signals from BCM + IntrusionInfoState = 1 + IntrusionInfoStateStatus = 0 +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. Verify the IntrusionAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +Testcase for analyzing the behaviour of TCM for export of Intrusion alert from cloud to app under different mobile preferred network type + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1.Change your phone preferred network type to 4G in mobile from network settings +2. Login to the connected car application and go to the profile Set the Power Mode as Awake + Powermode state = 1 +3. Set the Below signals from BCM + IntrusionInfoState = 1 + IntrusionInfoStateStatus = 0 +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. Verify the IntrusionAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Pre-condition: +Idle Alert + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle Idle alert under different phone network type configuration. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8 (Engine Run) +2. Set Vehicle speed is 0 +VehSpdIC = 0 +3. Set Engine RPM is non-zero +EngSpd = 0 +4. wait for idle time to elapse +5. Change your phone preferred network type to 2G in mobile from network settings +6. Login to the connected car application + +Expected Output: +Check if alert is displayed in app + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle Idle alert under different phone network type configuration. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8 (Engine Run) +2. Set Vehicle speed is 0 +VehSpdIC = 0 +3. Set Engine RPM is non-zero +EngSpd = 0 +4. wait for idle time to elapse +5. Change your phone preferred network type to 3G in mobile from network settings +6. Login to the connected car application + +Expected Output: +Check if alert is displayed in app + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle Idle alert under different phone network type configuration. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8 (Engine Run) +2. Set Vehicle speed is 0 +VehSpdIC = 0 +3. Set Engine RPM is non-zero +EngSpd = 0 +4. wait for idle time to elapse +5. Change your phone preferred network type to 4G in mobile from network settings +6. Login to the connected car application + +Expected Output: +Check if alert is displayed in app + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle Idle alert under different phone network type configuration. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8 (Engine Run) +2. Set Vehicle speed is 0 +VehSpdIC = 0 +3. Set Engine RPM is non-zero +EngSpd = 0 +4. wait for idle time to elapse +5. Change your phone preferred network type to 2G in mobile from network settings +6. Login to the connected car application + +Expected Output: +Check if alert is displayed in app + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle Idle alert under different phone network type configuration. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8 (Engine Run) +2. Set Vehicle speed is 0 +VehSpdIC = 0 +3. Set Engine RPM is non-zero +EngSpd = 0 +4. wait for idle time to elapse +5. Change your phone preferred network type to 3G in mobile from network settings +6. Login to the connected car application + +Expected Output: +Check if alert is displayed in app + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle Idle alert under different phone network type configuration. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8 (Engine Run) +2. Set Vehicle speed is 0 +VehSpdIC = 0 +3. Set Engine RPM is non-zero +EngSpd = 0 +4. wait for idle time to elapse +5. Change your phone preferred network type to 4G in mobile from network settings +6. Login to the connected car application + +Expected Output: +Check if alert is displayed in app + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle Idle alert under different phone network type configuration. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8 (Engine Run) +2. press accelerator as to keep engine speed not equal to zero +3. wait for idle time to elapse +4. Change your phone preferred network type to 4G in mobile from network settings +5. Login to the connected car application + +Expected Output: +Check if alert is displayed in app + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle Idle alert under different phone network type configuration. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8 (Engine Run) +2. press accelerator as to keep engine speed not equal to zero +3. wait for idle time to elapse +4. Change your phone preferred network type to 3G in mobile from network settings +5. Login to the connected car application + +Expected Output: +Check if alert is displayed in app + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle Idle alert under different phone network type configuration. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Set the power mode as 8 (Engine Run) +2. press accelerator as to keep engine speed not equal to zero +3. wait for idle time to elapse +4. Change your phone preferred network type to 2G in mobile from network settings +5. Login to the connected car application + +Expected Output: +Check if alert is displayed in app + +======================================== + +======================================== + +Pre-condition: +Speed Alert + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle speed alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Speed Alert is turned ON in the Mobile App +3) High Speed threshold is default(80 KMPH) + +Test Procedure: +1. Set the Powermode as Ignition ON and Vehicle is in Motion + Powermode = 8 +2. Set the Vehicle speed as 85 KMPH using CAN signal + IcdSpeedSig = 85Kmph +3. Change your phone preferred network type to 2G in mobile from network settings +4. Login to the connected car application + + +Expected Output: +1. Verify the following Alert is displaying in the Mobile App + Your car has exceeded the set speed limit +2. Verify threshold speed is displaying in the Mobile App in Red Colour +3. Verify Red indicator is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle speed alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Speed Alert is turned ON in the Mobile App +3) High Speed threshold is default(80 KMPH) + +Test Procedure: +1. Set the Powermode as Ignition ON and Vehicle is in Motion + Powermode = 8 +2. Set the Vehicle speed as 85 KMPH using CAN signal + IcdSpeedSig = 85Kmph +3. Change your phone preferred network type to 3G in mobile from network settings +4. Login to the connected car application + + +Expected Output: +1. Verify the following Alert is displaying in the Mobile App + Your car has exceeded the set speed limit +2. Verify threshold speed is displaying in the Mobile App in Red Colour +3. Verify Red indicator is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle speed alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Speed Alert is turned ON in the Mobile App +3) High Speed threshold is default(80 KMPH) + +Test Procedure: +1. Set the Powermode as Ignition ON and Vehicle is in Motion + Powermode = 8 +2. Set the Vehicle speed as 85 KMPH using CAN signal + IcdSpeedSig = 85Kmph +3. Change your phone preferred network type to 4G in mobile from network settings +4. Login to the connected car application + + +Expected Output: +1. Verify the following Alert is displaying in the Mobile App + Your car has exceeded the set speed limit +2. Verify threshold speed is displaying in the Mobile App in Red Colour +3. Verify Red indicator is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle speed alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Speed Alert is turned ON in the Mobile App +3) High Speed threshold is default(80 KMPH) + +Test Procedure: +1. Set the Powermode as Ignition ON and Vehicle is in Motion + Powermode = 8 +2. Set the Vehicle speed as 85 KMPH using CAN signal + IcdSpeedSig = 85Kmph +3. Change your phone preferred network type to 2G in mobile from network settings +4. Login to the connected car application + + +Expected Output: +1. Verify the following Alert is displaying in the Mobile App + Your car has exceeded the set speed limit +2. Verify threshold speed is displaying in the Mobile App in Red Colour +3. Verify Red indicator is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle speed alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Speed Alert is turned ON in the Mobile App +3) High Speed threshold is default(80 KMPH) + +Test Procedure: +1. Set the Powermode as Ignition ON and Vehicle is in Motion + Powermode = 8 +2. Set the Vehicle speed as 85 KMPH using CAN signal + IcdSpeedSig = 85Kmph +3. Change your phone preferred network type to 3G in mobile from network settings +4. Login to the connected car application + + +Expected Output: +1. Verify the following Alert is displaying in the Mobile App + Your car has exceeded the set speed limit +2. Verify threshold speed is displaying in the Mobile App in Red Colour +3. Verify Red indicator is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle speed alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Speed Alert is turned ON in the Mobile App +3) High Speed threshold is default(80 KMPH) + +Test Procedure: +1. Set the Powermode as Ignition ON and Vehicle is in Motion + Powermode = 8 +2. Set the Vehicle speed as 85 KMPH using CAN signal + IcdSpeedSig = 85Kmph +3. Change your phone preferred network type to 4G in mobile from network settings +4. Login to the connected car application + + +Expected Output: +1. Verify the following Alert is displaying in the Mobile App + Your car has exceeded the set speed limit +2. Verify threshold speed is displaying in the Mobile App in Red Colour +3. Verify Red indicator is displaying in the Mobile App + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle speed alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Speed Alert is turned ON in the Mobile App + +Test Procedure: +1. Set the Powermode as Ignition ON and Vehicle is in Motion +2. Set the High Speed threshold as 60 KMPH on Mobile App +3. Drive the Vehicle above 60 KMPH +5. Change your phone preferred network type to 2G in mobile from network settings +6. Login to the connected car application + + +Expected Output: + +1. Verify Vehicle threshold speed is set as 60 KMPH in the TMLCVP Platform +2. Verify the following Alert is displaying in the Mobile App + High Speed Alert in red Colour +3.Verify current speed is displaying in the Mobile App in Red Colour + + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle speed alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Speed Alert is turned ON in the Mobile App + +Test Procedure: +1. Set the Powermode as Ignition ON and Vehicle is in Motion +2. Set the High Speed threshold as 60 KMPH on Mobile App +3. Drive the Vehicle above 60 KMPH +5. Change your phone preferred network type to 3G in mobile from network settings +6. Login to the connected car application + + +Expected Output: + +1. Verify Vehicle threshold speed is set as 60 KMPH in the TMLCVP Platform +2. Verify the following Alert is displaying in the Mobile App + High Speed Alert in red Colour +3.Verify current speed is displaying in the Mobile App in Red Colour + + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for Vehicle speed alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Speed Alert is turned ON in the Mobile App + +Test Procedure: +1. Set the Powermode as Ignition ON and Vehicle is in Motion +2. Set the High Speed threshold as 60 KMPH on Mobile App +3. Drive the Vehicle above 60 KMPH +5. Change your phone preferred network type to 4G in mobile from network settings +6. Login to the connected car application + + +Expected Output: + +1. Verify Vehicle threshold speed is set as 60 KMPH in the TMLCVP Platform +2. Verify the following Alert is displaying in the Mobile App + High Speed Alert in red Colour +3.Verify current speed is displaying in the Mobile App in Red Colour + + +======================================== + +======================================== + +Pre-condition: +Time Fencing + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for time fencing alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Time fencing alert option is ON in Mobile App + +Test Procedure: +1. Set Time fencing time limit 1.e. start time & End time via app. +2. Set the Power mode as Ignition ON and Vehicle is in Motion in between start and stop time + Power mode = 8 +3. Change your phone preferred network type to 4G in mobile from network settings +4. Login to the connected car application + +Expected Output: + + +1. Verify time Fencing Alert is displayed on the Mobile App + + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for time fencing alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Time fencing alert option is ON in Mobile App + +Test Procedure: +1. Set Time fencing time limit 1.e. start time & End time via app. +2. Set the Power mode as Ignition ON and Vehicle is in Motion in between start and stop time + Power mode = 8 +3. Change your phone preferred network type to 3G in mobile from network settings +4. Login to the connected car application + +Expected Output: + + +1. Verify time Fencing Alert is displayed on the Mobile App + + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for time fencing alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Time fencing alert option is ON in Mobile App + +Test Procedure: +1. Set Time fencing time limit 1.e. start time & End time via app. +2. Set the Power mode as Ignition ON and Vehicle is in Motion in between start and stop time + Power mode = 8 +3. Change your phone preferred network type to 2G in mobile from network settings +4. Login to the connected car application + +Expected Output: + + +1. Verify time Fencing Alert is displayed on the Mobile App + + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for time fencing alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Time fencing alert option is ON in Mobile App + +Test Procedure: +1. Set Time fencing time limit 1.e. start time & End time via app. +2. Set the Power mode as Ignition ON and Vehicle is in Motion in between start and stop time + Power mode = 8 +3. Change your phone preferred network type to 4G in mobile from network settings +4. Login to the connected car application + +Expected Output: + + +1. Verify time Fencing Alert is displayed on the Mobile App + + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for time fencing alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Time fencing alert option is ON in Mobile App + +Test Procedure: +1. Set Time fencing time limit 1.e. start time & End time via app. +2. Set the Power mode as Ignition ON and Vehicle is in Motion in between start and stop time + Power mode = 8 +3. Change your phone preferred network type to 3G in mobile from network settings +4. Login to the connected car application + +Expected Output: + + +1. Verify time Fencing Alert is displayed on the Mobile App + + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for time fencing alert under different phone network type configuration. + +Pre-condition: +1) Mobile - Cloud - TCU have sufficient network strength +2) Time fencing alert option is ON in Mobile App + +Test Procedure: +1. Set Time fencing time limit 1.e. start time & End time via app. +2. Set the Power mode as Ignition ON and Vehicle is in Motion in between start and stop time + Power mode = 8 +3. Change your phone preferred network type to 2G in mobile from network settings +4. Login to the connected car application + +Expected Output: + + +1. Verify time Fencing Alert is displayed on the Mobile App + + +======================================== + +======================================== + +Pre-condition: +Tow away Alert + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for tow away alert under different phone network type configuration + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Change your phone preferred network type to 2G in mobile from network settings +2. Login to the connected car application +3. Simulate a Tow Away condition + +Expected Output: +1. verified the following details is removed in the Cloud:         +a. Telemetry Record Element - TowAway/unauthorizedMovemenTailrt + b. Telemetry Record Element - VehicleIncidentEvent +2. verified the TowAway/unauthorizedMovemenTailrt is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for tow away alert under different phone network type configuration + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Change your phone preferred network type to 3G in mobile from network settings +2. Login to the connected car application +3. Simulate a Tow Away condition + +Expected Output: +1. verified the following details is removed in the Cloud:         +a. Telemetry Record Element - TowAway/unauthorizedMovemenTailrt + b. Telemetry Record Element - VehicleIncidentEvent +2. verified the TowAway/unauthorizedMovemenTailrt is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from cloud to app for tow away alert under different phone network type configuration + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Change your phone preferred network type to 4G in mobile from network settings +2. Login to the connected car application +3. Simulate a Tow Away condition + +Expected Output: +1. verified the following details is removed in the Cloud:         +a. Telemetry Record Element - TowAway/unauthorizedMovemenTailrt + b. Telemetry Record Element - VehicleIncidentEvent +2. verified the TowAway/unauthorizedMovemenTailrt is removed in the Mobile App + +======================================== + +======================================== + +Pre-condition: + Custom messages + +======================================== + +Test Description: +Test Case to analyse the export of data from app to cloud for custom messages under different phone network configuration + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + + + +1. Change your phone preferred network type to 2G in mobile from network settings +2. Login to the connected car application +3. Set the Date of Birth through the Mobile App as today +4. Set the Power Mode as Ignition On + Powermode state = 6 +5. Cloud shall send the Owner's birthday notification alert to TCU +6. TCU shall send CAN signals to IPC to display Birthday message +7.Verify the outputs + + + +Expected Output: +1. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersBirthDay=1 on CAN after receiving command. +2. Verify that IPC_Telematics_Event_Info_Resp message with signal OwnersBirthDayResponse=1 is published by IPC +3. Verify the following in the IPC + "Happy Birthday!" message shall be displayed on screen for 4 seconds only. +4. Verify the following Command Response from TCU to Cloud BirthDayTriggerCmdResponse + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from app to cloud for custom messages under different phone network configuration + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + + + +1. Change your phone preferred network type to 3G in mobile from network settings +2. Login to the connected car application +3. Set the Date of Birth through the Mobile App as today +4. Set the Power Mode as Ignition On + Powermode state = 6 +5. Cloud shall send the Owner's birthday notification alert to TCU +6. TCU shall send CAN signals to IPC to display Birthday message +7.Verify the outputs + + + +Expected Output: +1. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersBirthDay=1 on CAN after receiving command. +2. Verify that IPC_Telematics_Event_Info_Resp message with signal OwnersBirthDayResponse=1 is published by IPC +3. Verify the following in the IPC + "Happy Birthday!" message shall be displayed on screen for 4 seconds only. +4. Verify the following Command Response from TCU to Cloud BirthDayTriggerCmdResponse + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from app to cloud for custom messages under different phone network configuration + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: + + + +1. Change your phone preferred network type to 4G in mobile from network settings +2. Login to the connected car application +3. Set the Date of Birth through the Mobile App as today +4. Set the Power Mode as Ignition On + Powermode state = 6 +5. Cloud shall send the Owner's birthday notification alert to TCU +6. TCU shall send CAN signals to IPC to display Birthday message +7.Verify the outputs + + + +Expected Output: +1. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersBirthDay=1 on CAN after receiving command. +2. Verify that IPC_Telematics_Event_Info_Resp message with signal OwnersBirthDayResponse=1 is published by IPC +3. Verify the following in the IPC + "Happy Birthday!" message shall be displayed on screen for 4 seconds only. +4. Verify the following Command Response from TCU to Cloud BirthDayTriggerCmdResponse + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from app to cloud for custom messages under different power fluctuation + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: +1. Connect to variable power supply. +2. Set the Date of Birth through the Mobile App as today. +3. Increse and decrease the voltage from 6 to 12V at 0.5V/sec +4. Set the Power Mode as Ignition On + Powermode state = 6 +5. Cloud shall send the Owner's birthday notification alert to TCU +6. TCU shall send CAN signals to IPC to display Birthday message +7.Verify the outputs + + + +Expected Output: +1. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersBirthDay=1 on CAN after receiving command. +2. Verify that IPC_Telematics_Event_Info_Resp message with signal OwnersBirthDayResponse=1 is published by IPC +3. Verify the following in the IPC + "Happy Birthday!" message shall be displayed on screen for 4 seconds only. +4. Verify the following Command Response from TCU to Cloud BirthDayTriggerCmdResponse + +======================================== + +======================================== + +Test Description: +Test Case to analyse the export of data from app to cloud for custom messages under different power fluctuation + +Pre-condition: +1) The car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) User is registered to TML cloud application through the Connected Vehicle APP +4) User has to fill personal details like Date of Birth, Anniversary date etc. through the Mobile App +- Opens the Mobile APP - Goes to Menu > Personal details > Update Personal Info + Date of Birth. + Marriage Anniversary date +- Click on Save option to save the data. + - App sends the updated data to Cloud +5) Instrument Cluster (IPC) display the customized messages on the screen + + + + +Test Procedure: +1. Connect to variable power supply. +2. Set the Date of Birth through the Mobile App as today. +3. Increse and decrease the voltage from 12V to 6V at 0.5V/sec +4. Set the Power Mode as Ignition On + Powermode state = 6 +5. Cloud shall send the Owner's birthday notification alert to TCU +6. TCU shall send CAN signals to IPC to display Birthday message +7.Verify the outputs + + + +Expected Output: +1. Verify that TCU publishes Telematics_IPC_Event_Info message with signal OwnersBirthDay=1 on CAN after receiving command. +2. Verify that IPC_Telematics_Event_Info_Resp message with signal OwnersBirthDayResponse=1 is published by IPC +3. Verify the following in the IPC + "Happy Birthday!" message shall be displayed on screen for 4 seconds only. +4. Verify the following Command Response from TCU to Cloud BirthDayTriggerCmdResponse + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Low fuel Alert is detected, + LowFuelOutputIC = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from IPC + LowFuelOutputIC = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. Verified the Low fuel alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Low fuel Alert is detected, + LowFuelOutputIC = 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from IPC + LowFuelOutputIC = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. Verified the Low fuel alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Low fuel Alert is detected, + LowFuelOutputIC = 0 + +Test Procedure: +1. Set the Power Mode as crank + Powermode State = 9 +2. Set the Below signals from IPC + LowFuelOutputIC = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. Verified the Low fuel alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Low fuel Alert is detected, + LowFuelOutputIC = 1 + +Test Procedure: +1. Set the Power Mode as crank + Powermode State = 9 +2. Set the Below signals from IPC + LowFuelOutputIC = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. Verified the Low fuel alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Low fuel Alert is detected, + LowFuelOutputIC = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from IPC + LowFuelOutputIC = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. Verified the Low fuel alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Low fuel Alert is detected, + LowFuelOutputIC = 1 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from IPC + LowFuelOutputIC = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - Low fuel alert + +II. Verified the Low fuel alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Refuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RefuelAlert is detected, + RefuelAlert = 0 + +Test Procedure: +1. Set the Power Mode as IGN On + Powermode State = 6 +2. Set the Below signals from IPC + RefuelAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - RefuelAlert + +II. Verified the RefuelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Refuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RefuelAlert is detected, + RefuelAlert = 1 + +Test Procedure: +1. Set the Power Mode as IGN On + Powermode State = 6 +2. Set the Below signals from IPC + RefuelAlert = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - RefuelAlert + +II. Verified the RefuelAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Refuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RefuelAlert is detected, + RefuelAlert = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + RefuelAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - RefuelAlert + +II. Verified the RefuelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Refuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RefuelAlert is detected, + RefuelAlert = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + RefuelAlert = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - RefuelAlert + +II. Verified the RefuelAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Refuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RefuelAlert is detected, + RefuelAlert = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from IPC + RefuelAlert = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - RefuelAlert + +II. Verified the RefuelAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Refuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No RefuelAlert is detected, + RefuelAlert = 1 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from IPC + RefuelAlert = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - RefuelAlert + +II. Verified the RefuelAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +This is to provide Insurance Expiry Alert on mobile app to provide reminder for Insurance inssuance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM to Cloud and Cloud to Mobile App signal strength is strong + +Test Procedure: +FEATURE STRATEGY AND DESCRIPTION YET TO BE DECIDED BY TML + +======================================== + +Test Description: +This is to provide PUC Expiry Alert on mobile app to provide reminder for PUC inssuance + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM to Cloud and Cloud to Mobile App signal strength is strong + +Test Procedure: +FEATURE STRATEGY AND DESCRIPTION YET TO BE DECIDED BY TML + +======================================== + +Test Description: +This is to provide Route deviation alert on mobile app + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM to Cloud and Cloud to Mobile App signal strength is strong + +Test Procedure: +FEATURE STRATEGY AND DESCRIPTION YET TO BE DECIDED BY TML + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) cSbrDrvrSeatBeltSwitchStatus=0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from IPC +cSbrDrvrSeatBeltSwitchStatus= 1 +3. Check whether Normal Alert is detected in Cloud + +Expected Output: +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert=1 + +II. Verified the Driver SeatBelt Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) cSbrDrvrSeatBeltSwitchStatus=1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from IPC +cSbrDrvrSeatBeltSwitchStatus=0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert=0 + +II. Verified the Driver SeatBelt Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) cSbrDrvrSeatBeltSwitchStatus=0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from IPC +cSbrDrvrSeatBeltSwitchStatus= 1 +3. Check whether Normal Alert is detected in Cloud + +Expected Output: +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert=1 + +II. Verified the Driver SeatBelt Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)cSbrDrvrSeatBeltSwitchStatus=1 + +Test Procedure: +1. Set the Power Mode as run Powermode State = 8 +2. Set the Below signals from IPC +cSbrDrvrSeatBeltSwitchStatus= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert=0 + +II. Verified the Driver SeatBelt Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) cSbrDrvrSeatBeltSwitchStatus=0 + +Test Procedure: +1. Set the Power Mode as crank Powermode State = 9 +2. Set the Below signals from IPC +cSbrDrvrSeatBeltSwitchStatus= 1 +3. Check whether Normal Alert is detected in Cloud + +Expected Output: +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert=1 + +II. Verified the Driver SeatBelt Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)cSbrDrvrSeatBeltSwitchStatus=1 + +Test Procedure: +1. Set the Power Mode as crank + Powermode State = 9 +2. Set the Below signals from IPC +cSbrDrvrSeatBeltSwitchStatus= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert=0 + +II. Verified the Driver SeatBelt Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)FrPassSBRIndication= 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from SRS + +FrPassSBRIndication= 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert=1 + +II. Verified the CoDriverSeatbeltAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)FrPassSBRIndication= 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from SRS + +FrPassSBRIndication= 0 +3. Check whether Normal Alert is Removed in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert=0 + +II. Verified the CoDriverSeatbeltAlert is Removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)FrPassSBRIndication= 0 + +Test Procedure: +1. Set the Power Mode as RUN + Powermode State = 8 +2. Set the Below signals from SRS + +FrPassSBRIndication= 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert=1 + +II. Verified the CoDriverSeatbeltAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)FrPassSBRIndication= 1 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from SRS + +FrPassSBRIndication= 0 +3. Check whether Normal Alert is Removed in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert=0 + +II. Verified the CoDriverSeatbeltAlert is Removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)FrPassSBRIndication= 0 + +Test Procedure: +1. Set the Power Mode as crank + Powermode State = 9 +2. Set the Below signals from SRS + +FrPassSBRIndication= 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert=1 + +II. Verified the CoDriverSeatbeltAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)FrPassSBRIndication= 1 + +Test Procedure: +1. Set the Power Mode as crank + Powermode State = 9 +2. Set the Below signals from SRS + +FrPassSBRIndication= 0 +3. Check whether Normal Alert is Removed in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert=0 + +II. Verified the CoDriverSeatbeltAlert is Removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateDrvr= 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from BCM +DoorStateDrvr= 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag = 1 + +II. Verified Right frontDoor Open Alerts are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateDrvr= 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from BCM +DoorStateDrvr = 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag =0 + +II. Verified Right frontDoor Open Alerts are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateDrvr= 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from BCM +DoorStateDrvr= 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag=1 + +II. Verified Right frontDoor Open Alerts are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateDrvr= 1 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from BCM +DoorStateDrvr= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag=0 + +II. Verified Right frontDoor Open Alerts are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateDrvr= 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from BCM +DoorStateDrvr= 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag=1 + +II. Verified Right frontDoor Open Alerts are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateDrvr= 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from BCM +DoorStateDrvr= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag=0 + +II. Verified Right frontDoor Open Alerts are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStatePass= 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from BCM +DoorStatePass= 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftDoorOpenflag=1 + +II. Verified LeftFrontDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStatePass= 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from BCM +DoorStatePass= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftDoorOpenflag=0 + +II. Verified LeftFrontDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStatePass= 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from BCM +DoorStatePass= 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftDoorOpenflag=1 + +II. Verified LeftFrontDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStatePass= 1 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from BCM +DoorStatePass= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftDoorOpenflag=0 + +II. Verified LeftFrontDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStatePass= 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from BCM +DoorStatePass= 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftDoorOpenflag=1 + +II. Verified LeftFrontDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStatePass= 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from BCM +DoorStatePass= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftDoorOpenflag=0 + +II. Verified LeftFrontDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateRearLH = 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from BCM +DoorStateRearLH = 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=1 + +II.Verified LeftRearDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateRearLH= 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from BCM +DoorStateRearLH= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=0 + +II.VerifiedLeftRearDoorOpenAlertare removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateRearLH = 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from BCM +DoorStateRearLH = 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=1 + +II. Verified LeftRearDoorOpenAlertare displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateRearLH= 1 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from BCM +DoorStateRearLH= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=0 + +II. Verified LeftRearDoorOpenAlertare removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateRearLH = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from BCM +DoorStateRearLH= 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=1 + +II. Verified LeftRearDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateRearLH= 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from BCM +DoorStateRearLH= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=0 + +II. Verified LeftRearDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateRearRH= 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from BCM +DoorStateRearRH = 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=1 + +II.Verified RightRearDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateRearRH= 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from BCM +DoorStateRearRH= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=0 + +II.Verified RightRearDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateRearRH= 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from BCM +DoorStateRearRH = 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=1 + +II. Verified RightRearDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateRearRH= 1 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from BCM +DoorStateRearRH= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=0 + +II. Verified RightRearDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateRearRH = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from BCM +DoorStateRearRH= 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=1 + +II. Verified RightRearDoorOpenAlertare displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) DoorStateRearRH= 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from BCM +DoorStateRearRH= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=0 + +II. Verified RightRearDoorOpenAlertare removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TailgateState= 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from BCM +TailgateState = 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=1 + +II.Verified TailGateOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)TailgateState= 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from BCM +TailgateState = 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=0 + +II.Verified TailGateOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TailgateState= 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from BCM +TailgateState = 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=1 + +II. Verified TailGateOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TailgateState= 1 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from BCM +TailgateState= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=0 + +II. Verified TailGateOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TailgateState = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from BCM +TailgateState= 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=1 + +II. Verified TailGateOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TailgateState= 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from BCM +TailgateState= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=0 + +II. Verified TailGateOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) BonnetState= 0 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from BCM +BonnetState = 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=1 + +II.Verified BonnetOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)BonnetState= 1 + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Set the Below signals from BCM +BonnetState = 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=0 + +II.Verified BonnetOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) BonnetState= 0 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from BCM +BonnetState = 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=1 + +II. Verified BonnetOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) BonnetState= 1 + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from BCM +BonnetState= 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=0 + +II. Verified BonnetOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) BonnetState = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from BCM +BonnetState = 1 +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=1 + +II. Verified BonnetOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) BonnetState= 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from BCM +BonnetState = 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=0 + +II. Verified BonnetOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HightirepresAlertFL = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 + HightirepresAlertFL = 1 +2. Turn Vehicle Ignition ON +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert=1 + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HightirepresAlertFL = 0 + +Test Procedure: +1. Set theBelow signals from TPMS1 + HightirepresAlertFL = 1 +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert =1 + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HightirepresAlertFL = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 + HightirepresAlertFL = 1 +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert =1 + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowtirepresAlertFL = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 + LowtirepresAlertFL = 1 +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert =1 + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowtirepresAlertFL = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 + LowtirepresAlertFL = 1 +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert =1 + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowtirepresAlertFL = 1 + +Test Procedure: +1. Set the Below signals from TPMS1 + LowtirepresAlertFL = 0 +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert =0 + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowtirepresAlertFL = 1 + +Test Procedure: +1. Set the Below signals from TPMS1 + LowtirepresAlertFL = 0 +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert =0 + +II. Verified the LeftFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowtirepresAlertFL = 1 + +Test Procedure: +1. Set the Below signals from TPMS1 + LowtirepresAlertFL = 0 +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert =0 + +II. Verified the LeftFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowtirepresAlertFL = 1 + +Test Procedure: +1.Set the Below signals from TPMS1 + LowtirepresAlertFL = 0 +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert =0 + +II. Verified the LeftFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowtirepresAlertRL = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 + LowtirepresAlertRL = 1 +2. Turn Vehicle Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert =1 + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowtirepresAlertRL = 0 + +Test Procedure: +1 Set the Below signals from TPMS1 + LowtirepresAlertRL = 1 +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert =1 + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowtirepresAlertRL = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 + LowtirepresAlertRL = 1 +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert =1 + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)HightirepresAlertRL = 0 + +Test Procedure: +1.Set the Below signals from TPMS1 + HightirepresAlertRL = 1 +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert =1 + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)HightirepresAlertRL = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 + HightirepresAlertRL = 1 +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert =1 + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)HightirepresAlertRL = 0 + +Test Procedure: +1.Set the Below signals from TPMS1 + HightirepresAlertRL = 1 +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert =1 + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)HightirepresAlertRL = 1 + +Test Procedure: +1.. Set the Below signals from TPMS1 + HightirepresAlertRL = 0 +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert =0 + +II. Verified the LeftRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)HightirepresAlertRL = 1 + +Test Procedure: +1.. Set the Below signals from TPMS1 + HightirepresAlertRL = 0 +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert =0 + +II. Verified the LeftRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)HightirepresAlertRL = 1 + +Test Procedure: +1. . Set the Below signals from TPMS1 + HightirepresAlertRL = 0 +2. Turn Vehicle into Crank on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert =0 + +II. Verified the LeftRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) + LowtirepresAlertFR = 0 + +Test Procedure: +1.. Set the Below signals from TPMS1 + LowtirepresAlertFR = 1 +2. Turn Vehicle Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert =1 + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) + LowtirepresAlertFR = 0 + +Test Procedure: +1. . Set the Below signals from TPMS1 + LowtirepresAlertFR = 1 +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert =1 + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) + LowtirepresAlertFR = 0 + +Test Procedure: +1.. Set the Below signals from TPMS1 +LowtirepresAlertFR = 1 +2. Turn Vehicle into Crnak mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert =1 + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)HightirepresAlertFR = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 +HightirepresAlertFR = 1 +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert =1 + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)HightirepresAlertFR = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 +HightirepresAlertFR = 1 +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert =1 + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)HightirepresAlertFR = 0 + +Test Procedure: +1.Set the Below signals from TPMS1 +HightirepresAlertFR = 1 +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert=1 + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)HightirepresAlertFR = 1 + +Test Procedure: +1. Set the Below signals from TPMS1 +HightirepresAlertFR = 0 +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert =0 + +II. Verified the RightFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)HightirepresAlertFR = 1 + +Test Procedure: +1.Set the Below signals from TPMS1 +HightirepresAlertFR = 0 +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert =0 + +II. Verified the RightFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)HightirepresAlertFR = 1 + +Test Procedure: +1. Set the Below signals from TPMS1 +HightirepresAlertFR = 0 +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert =0 + +II. Verified the RightFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowtirepresAlertSpare = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 +LowtirepresAlertSpare = 1 +2. Turn Vehicle Ignition On +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert=1 + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowtirepresAlertSpare = 0 + +Test Procedure: +1.Set the Below signals from TPMS1 +LowtirepresAlertSpare = 1 +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert =1 + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) LowtirepresAlertSpare = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 +LowtirepresAlertSpare = 1 +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert=1 + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HightirepresAlertSpare = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 +HightirepresAlertSpare = 1 +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert =1 + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HightirepresAlertSpare = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 +HightirepresAlertSpare = 1 +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert=1 + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HightirepresAlertSpare = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 +HightirepresAlertSpare = 1 +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert =1 + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HightirepresAlertSpare = 1 + +Test Procedure: +1. Set the Below signals from TPMS1 +HightirepresAlertSpare = 0 +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert=0 + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HightirepresAlertSpare = 1 + +Test Procedure: +1. Set the Below signals from TPMS1 +HightirepresAlertSpare = 0 +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert =0 + +II. Verified the SpareTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HightirepresAlertSpare = 1 + +Test Procedure: +1. Set the Below signals from TPMS1 +HightirepresAlertSpare = 0 +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert=0 + +II. Verified the SpareTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightrearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)HightirepresAlertRR = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 +HightirepresAlertRR = 1 +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert =1 + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightrearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HightirepresAlertRR = 0 + +Test Procedure: +1. Set the Below signals from TPMS1 +HightirepresAlertRR = 0 +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert =1 + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightrearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) HightirepresAlertRR = 1 + +Test Procedure: +1. Set the Below signals from TPMS1 +HightirepresAlertRR = 0 +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert =0 + +II. Verified the RightFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure High +2. Turn Vehicle Ignition ON +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure High +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure High +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure Low +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure Low +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure Low +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure Normal +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure Normal +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure Normal +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure Low +2. Turn Vehicle Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure Low +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure Low +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure High +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure High +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure High +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure Normal +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure Normal +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure Normal +2. Turn Vehicle into Crank on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure Low +2. Turn Vehicle Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure Low +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure Low +2. Turn Vehicle into Crnak mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure High +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure High +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure High +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure Normal +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure Normal +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure Normal +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre Pressure Low +2. Turn Vehicle Ignition On +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre Pressure Low +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre Pressure Low +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre PressureHigh +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre PressureHigh +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre PressureHigh +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre Pressurre Normal +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre Pressurre Normal +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre Pressurre Normal +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure High +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure High +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure Low +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure Low +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure Low +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure Normal +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure Normal +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Front Tyre Pressure Normal +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftFrontTyrePressureAlert + +II. Verified the LeftFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure Low +2. Turn Vehicle Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure Low +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure Low +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure High +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure High +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure High +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure Normal +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure Normal +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for LeftRearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Left Rear Tyre Pressure Normal +2. Turn Vehicle into Crank on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - LeftRearTyrePressureAlert + +II. Verified the LeftRearTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure Low +2. Turn Vehicle Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure Low +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure Low +2. Turn Vehicle into Crnak mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure High +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure High +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure High +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure Normal +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure Normal +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightFrontTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure Normal +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre Pressure Low +2. Turn Vehicle Ignition On +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre Pressure Low +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre Pressure Low +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre PressureHigh +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre PressureHigh +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre PressureHigh +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre Pressurre Normal +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SpareTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre Pressurre Normal +2. Turn Vehicle into Run mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for SparetyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Spare Tyre Pressurre Normal +2. Turn Vehicle into Crank mode +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - SpareTyrePressureAlert + +II. Verified the SpareTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightrearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure High +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightrearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure Low +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for RightrearTyrePressureAlert signal from TPMS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Keep the Right Front Tyre Pressure Normal +2. Turn Vehicle into Ignition on +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verified the following details is displayed in the Cloud: + a. Telemetry Record Element - RightFrontTyrePressureAlert + +II. Verified the RightFrontTyrePressureAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Ignition ON +2. Driver Seat belt is not inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. Verified the Driver SeatBelt Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Ignition ON +2. Driver Seat belt is inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. Verified the Driver SeatBelt Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Crank +2. Driver Seat belt is not inserted +3. Read the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. Verified the Driver SeatBelt Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Crank +2. Driver Seat belt is inserted +3. Read the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. Verified the Driver SeatBelt Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Run +2. Driver Seat belt is not inserted +3. Read the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. Verified the Driver SeatBelt Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Run +2. Driver Seat belt is inserted +3. Read the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. Verified the Driver SeatBelt Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Ignition ON +2. Co-Driver Seat belt is not inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. Verified the CoDriverSeatbeltAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Ignition ON +2. Co-Driver Seat belt is inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. Verified the CoDriverSeatbeltAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Crank +2. Co-Driver Seat belt is not inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. Verified the CoDriverSeatbeltAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Crank +2. Co-Driver Seat belt is inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. Verified the CoDriverSeatbeltAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Run +2. Co-Driver Seat belt is not inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. Verified the CoDriverSeatbeltAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Run +2. Co-Driver Seat belt is inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. Verified the CoDriverSeatbeltAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep driver door open . +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag = 1 + +II. Verified Right frontDoor Open Alerts are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep driver door open . +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag =0 + +II. Verified Right frontDoor Open Alerts are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep driver door open . +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag=1 + +II. Verified Right frontDoor Open Alerts are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep driver door open . +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag=0 + +II. Verified Right frontDoor Open Alerts are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep driver door open . +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag=1 + +II. Verified Right frontDoor Open Alerts are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep driver door open . +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag=0 + +II. Verified Right frontDoor Open Alerts are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep Co-driver door open . +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftFrontDoorOpenflag=1 + +II. Verified LeftFrontDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep Co-driver door open . +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftFrontDoorOpenflag=0 + +II. Verified LeftFrontDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep Co-driver door open . +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftFrontDoorOpenflag=1 + +II. Verified LeftFrontDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2.Keep Co-driver door open . +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftFrontDoorOpenflag=0 + +II. Verified LeftFrontDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep Co-driver door open . +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftFrontDoorOpenflag=1 + +II. Verified LeftFrontDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep Co-driver door open +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftFrontDoorOpenflag=0 + +II. Verified LeftFrontDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep LeftRear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=1 + +II.Verified LeftRearDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep LeftRear door open +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=0 + +II.VerifiedLeftRearDoorOpenAlertare removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep LeftRear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=1 + +II. Verified LeftRearDoorOpenAlertare displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep LeftRear door open +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=0 + +II. Verified LeftRearDoorOpenAlertare removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep LeftRear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=1 + +II. Verified LeftRearDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep LeftRear door open +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=0 + +II. Verified LeftRearDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep Right Rear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=1 + +II.Verified RightRearDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep Right Rear door open +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=0 + +II.Verified RightRearDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep Right Rear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=1 + +II. Verified RightRearDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep Right Rear door open +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=0 + +II. Verified RightRearDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep Right Rear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=1 + +II. Verified RightRearDoorOpenAlertare displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep Right Rear door open +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=0 + +II. Verified RightRearDoorOpenAlertare removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep Tailgate door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=1 + +II.Verified TailGateOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep Tailgate Rear door open +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=0 + +II.Verified TailGateOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep Tailgate Rear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=1 + +II. Verified TailGateOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep Tailgate Rear door open +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=0 + +II. Verified TailGateOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep Tailgate Rear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=1 + +II. Verified TailGateOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep Tailgate Rear door open +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=0 + +II. Verified TailGateOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) BonnetState= 0 + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2.Keep Bonnet door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=1 + +II.Verified BonnetOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep Bonnet door open +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=0 + +II.Verified BonnetOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep Bonnet door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=1 + +II. Verified BonnetOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep Bonnet door open +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=0 + +II. Verified BonnetOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2.Keep Bonnet door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=1 + +II. Verified BonnetOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep Bonnet door open +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=0 + +II. Verified BonnetOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Read the Below signals from IPC + LowFuelOutputIC +3. Check whether Normal Alert is removed in Cloud + +Expected Output: +1. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - Low fuel alert + +2. If LowFuelOutputIC=0 the Low fuel alert is detected on the cloud/Mobile app. + If LowFuelOutputIC=1 is removed in the Mobile App/cloud. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 8 +2. Read the Below signals from IPC + LowFuelOutputIC +3. Check whether Normal Alert is removed in Cloud + +Expected Output: +1. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - Low fuel alert + +2. If LowFuelOutputIC=0 the Low fuel alert is detected on the cloud/Mobile app. + If LowFuelOutputIC=1 is removed in the Mobile App/cloud. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 9 +2. Read the Below signals from IPC + LowFuelOutputIC +3. Check whether Normal Alert is removed in Cloud + +Expected Output: +1. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - Low fuel alert + +2. If LowFuelOutputIC=0 the Low fuel alert is detected on the cloud/Mobile app. + If LowFuelOutputIC=1 is removed in the Mobile App/cloud. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Ignition ON +2. Driver Seat belt is not inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. Verified the Driver SeatBelt Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Ignition ON +2. Driver Seat belt is inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. Verified the Driver SeatBelt Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Crank +2. Driver Seat belt is not inserted +3. Read the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. Verified the Driver SeatBelt Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Crank +2. Driver Seat belt is inserted +3. Read the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. Verified the Driver SeatBelt Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Run +2. Driver Seat belt is not inserted +3. Read the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. Verified the Driver SeatBelt Alert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Driver SeatBelt Alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Run +2. Driver Seat belt is inserted +3. Read the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - Driver SeatBelt Alert + +II. Verified the Driver SeatBelt Alert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Ignition ON +2. Co-Driver Seat belt is not inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. Verified the CoDriverSeatbeltAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Ignition ON +2. Co-Driver Seat belt is inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. Verified the CoDriverSeatbeltAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Crank +2. Co-Driver Seat belt is not inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. Verified the CoDriverSeatbeltAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Crank +2. Co-Driver Seat belt is inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. Verified the CoDriverSeatbeltAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Run +2. Co-Driver Seat belt is not inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. Verified the CoDriverSeatbeltAlert is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for CoDriverSeatbeltAlert signal from SRS + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Turn Vehicle Run +2. Co-Driver Seat belt is inserted +3. Set the vehicle speed.(speed threshold value yet to be fixed) +4. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified the following details is removed in the Cloud: + a. Telemetry Record Element - CoDriverSeatbeltAlert + +II. Verified the CoDriverSeatbeltAlert is removed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep driver door open . +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag = 1 + +II. Verified Right frontDoor Open Alerts are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep driver door closed +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag =0 + +II. Verified Right frontDoor Open Alerts are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep driver door open . +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag=1 + +II. Verified Right frontDoor Open Alerts are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep driver door Close. +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag=0 + +II. Verified Right frontDoor Open Alerts are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep driver door open . +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag=1 + +II. Verified Right frontDoor Open Alerts are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep driver door close. +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Right frontDoor Openflag=0 + +II. Verified Right frontDoor Open Alerts are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep Co-driver door open . +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftFrontDoorOpenflag=1 + +II. Verified LeftFrontDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep Co-driver door close. +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftFrontDoorOpenflag=0 + +II. Verified LeftFrontDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep Co-driver door open . +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftFrontDoorOpenflag=1 + +II. Verified LeftFrontDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2.Keep Co-driver door close. +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftFrontDoorOpenflag=0 + +II. Verified LeftFrontDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep Co-driver door open . +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftFrontDoorOpenflag=1 + +II. Verified LeftFrontDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep Co-driver door close +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftFrontDoorOpenflag=0 + +II. Verified LeftFrontDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep LeftRear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=1 + +II.Verified LeftRearDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep LeftRear door close +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=0 + +II.VerifiedLeftRearDoorOpenAlertare removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep LeftRear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=1 + +II. Verified LeftRearDoorOpenAlertare displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep LeftRear door close +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=0 + +II. Verified LeftRearDoorOpenAlertare removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep LeftRear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=1 + +II. Verified LeftRearDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep LeftRear door close +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - LeftRearOpenflag=0 + +II. Verified LeftRearDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep Right Rear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=1 + +II.Verified RightRearDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep Right Rear door close +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=0 + +II.Verified RightRearDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep Right Rear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=1 + +II. Verified RightRearDoorOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep Right Rear door close +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=0 + +II. Verified RightRearDoorOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep Right Rear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=1 + +II. Verified RightRearDoorOpenAlertare displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep Right Rear door close +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - RightRearOpenflag=0 + +II. Verified RightRearDoorOpenAlertare removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep Tailgate door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=1 + +II.Verified TailGateOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep Tailgate Rear door close +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=0 + +II.Verified TailGateOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep Tailgate Rear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=1 + +II. Verified TailGateOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep Tailgate Rear door close +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=0 + +II. Verified TailGateOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep Tailgate Rear door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=1 + +II. Verified TailGateOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep Tailgate Rear door close +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Tailgateopenflag=0 + +II. Verified TailGateOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) BonnetState= 0 + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2.Keep Bonnet door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=1 + +II.Verified BonnetOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Ignition ON + Powermode State = 6 +2. Keep Bonnet door close +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=0 + +II.Verified BonnetOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep Bonnet door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=1 + +II. Verified BonnetOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Run + Powermode State = 8 +2. Keep Bonnet door close +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=0 + +II. Verified BonnetOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2.Keep Bonnet door open +3. Check whether Normal Alert is Detected in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=1 + +II. Verified BonnetOpenAlert are displaying in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the door open event when any one below door is not properly closed. +Driver Door open +Passenger Door Open +Left Rear Door Open +Right Rear Door Open +Tailgate Open +Bonnet Open + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Read the Power Mode as Crank + Powermode State = 9 +2. Keep Bonnet door close +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verified Door Open Alerts are detected in the Cloud: + + a. Telemetry Record Element - Bonnetopenflag=0 + +II. Verified BonnetOpenAlert are removed in the Mobile App. + + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Set the Power Mode as Ignition ON + Powermode State = 6 +2. Read the Below signals from IPC + LowFuelOutputIC + + +Expected Output: +1. Verified the following details no alert should be detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +2. If LowFuelOutputIC=1 the Low fuel alert is detected on the cloud/Mobile app. + If LowFuelOutputIC=0 no alert should be detected in the Mobile App/cloud. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 8 +2. Read the Below signals from IPC + LowFuelOutputIC + + +Expected Output: +1. Verified the following details no alert should be detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +2. If LowFuelOutputIC=1 the Low fuel alert is detected on the cloud/Mobile app. + If LowFuelOutputIC=0 no alert should be detected in the Mobile App/cloud. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Low fuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is OFF + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 9 +2. Read the Below signals from IPC + LowFuelOutputIC + + +Expected Output: +1. Verified the following details is no alert should be detected in the Cloud: + a. Telemetry Record Element - Low fuel alert + +2. If LowFuelOutputIC=1 the Low fuel alert is detected on the cloud/Mobile app. + If LowFuelOutputIC=0 no alert should be detected in the Mobile App/cloud. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Refuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) vehicle is in off state + +Test Procedure: +1. Set the Power Mode as IGN On + Powermode State = 6 +2. Read the Below signals from IPC + RefuelAlert + + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - RefuelAlert + +II. If RefuelAlert = 1 alert sould be detected on the mobile app. + IF IRefuelAlert = 0 no alert sould be detected on the mobile app. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Refuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) vehicle is in off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from IPC + RefuelAlert = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - RefuelAlert + +II. If RefuelAlert = 1 alert sould be detected on the mobile app. + IF IRefuelAlert = 0 no alert sould be detected on the mobile app. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Refuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) vehicle is in off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + RefuelAlert = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - RefuelAlert + +II. If RefuelAlert = 1 alert sould be detected on the mobile app. + IF IRefuelAlert = 0 no alert sould be detected on the mobile app. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Refuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) vehicle is in off state + +Test Procedure: +1. Set the Power Mode as IGN On + Powermode State = 6 +2. Read the Below signals from IPC + RefuelAlert + + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - RefuelAlert + +II. If RefuelAlert = 1 alert sould be detected on the mobile app. + IF IRefuelAlert = 0 no alert sould be detected on the mobile app. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Refuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) vehicle is in off state + +Test Procedure: +1. Set the Power Mode as Run + Powermode State = 8 +2. Set the Below signals from IPC + RefuelAlert = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - RefuelAlert + +II. If RefuelAlert = 1 alert sould be detected on the mobile app. + IF IRefuelAlert = 0 no alert sould be detected on the mobile app. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Refuel alert signal from IPC + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) vehicle is in off state + +Test Procedure: +1. Set the Power Mode as Crank + Powermode State = 9 +2. Set the Below signals from IPC + RefuelAlert = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verified the following details is detected in the Cloud: + a. Telemetry Record Element - RefuelAlert + +II. If RefuelAlert = 1 alert sould be detected on the mobile app. + IF IRefuelAlert = 0 no alert sould be detected on the mobile app. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from BCM + IntrusionInfoState = 1 + IntrusionInfoStateStatus = 0 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. Verify the IntrusionAlert is displayed in the Mobile App. + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 1 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from BCM + IntrusionInfoState = 0 + IntrusionInfoStateStatus = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + +II. Verify the IntrusionAlert is removed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall not receive the condition for Intrusion Alert from BCM when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Set the Below signals from BCM + IntrusionInfoStateStatus = 3 + IntrusionInfoState = 1 + + + + +Expected Output: + +I. Verify the following Alert is not displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. Verify the IntrusionAlert is not displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from BCM + IntrusionInfoState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. Verify the IntrusionAlert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 1 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from BCM + IntrusionInfoState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + +II. Verify the IntrusionAlert is removed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall not receive the condition for Intrusion Alert from BCM when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Accessory + Powermode state = 4 +2. Set the Below signals from BCM + IntrusionInfoStateStatus = 3 + IntrusionInfoState = 1 + + +Expected Output: + +I. Verify the following Alert is not displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. Verify the IntrusionAlert is not displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from BCM + IntrusionInfoState = 1 +3. Check whether Normal Alert is detected in Cloud + +Expected Output: + +I. Verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. Verify the IntrusionAlert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 1 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from BCM + IntrusionInfoState = 0 +3. Check whether Normal Alert is removed in Cloud + +Expected Output: + +I. Verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + +II. Verify the IntrusionAlert is removed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall not receive the condition for Intrusion Alert from BCM when status signal is set to implausible + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Accessory Delay + Powermode state = 5 +2. Set the Below signals from BCM + IntrusionInfoStateStatus = 3 + IntrusionInfoState = 1 + + +Expected Output: + +I. Verify the following Alert is not displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. Verify the IntrusionAlert is not displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from BCM + IntrusionInfoState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. Verify the IntrusionAlert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 1 + +Test Procedure: +1. Set the Power Mode as Ignition On + Powermode state = 6 +2. Set the Below signals from BCM + IntrusionInfoState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + +II. Verify the IntrusionAlert is removed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from BCM + IntrusionInfoState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent +II. Verify the IntrusionAlert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 1 + +Test Procedure: +1. Set the Power Mode as Crank + Powermode state = 9 +2. Set the Below signals from BCM + IntrusionInfoState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + +II. Verify the IntrusionAlert is removed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 0 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from BCM + IntrusionInfoState = 1 +3. Check whether Normal Alert is detected in Cloud + + +Expected Output: + +I. Verify the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent + c. Telemetry Record Element - EngineStartEvent +II. Verify the IntrusionAlert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) No Intrusion Alert is detected + IntrusionInfoState = 1 + +Test Procedure: +1. Set the Power Mode as Running + Powermode state = 8 +2. Set the Below signals from BCM + IntrusionInfoState = 0 +3. Check whether Normal Alert is removed in Cloud + + +Expected Output: + +I. Verify the following Alert is removed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + +II. Verify the IntrusionAlert is removed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Intrusion Alert is NOt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from BCM + IntrusionInfoState + IntrusionInfoStateStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent + +II If the IntrusionInfoStateStatus = 0 + Then IntrusionAlert = 0 or 1 Should be updated in cloud + +III. verified the IntrusionAlert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +1) TCM is in the authorized state. +2) TCM shall receive the condition for Intrusion Alert from BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) NA Intrusion Alert is NAt detected + + +Test Procedure: +1. Set the Power Mode as Awake + Powermode state = 1 +2. Read the Below signals from BCM + IntrusionInfoState + IntrusionInfoStateStatus +3. Check whether NArmal Alert is detected in Cloud + + +Expected Output: + +I. verified the following Alert is displayed in the Cloud: + a. Telemetry Record Element - IntrusionAlert + b. Telemetry Record Element - VehicleIncidentEvent + +II If the IntrusionInfoStateStatus = 0 + Then IntrusionAlert = 0 or 1 Should be updated in cloud + +III. verified the IntrusionAlert is displayed in the Mobile App. + + +======================================== + +======================================== + +Test Description: +Testcase for analyzing the time required for getting the Alert when Intrusion is detected by BCM + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM to Cloud and Cloud to Mobile App signal strength is strong + +Test Procedure: +1. Set the Power Mode as Ignition ON +2. Simulate the condition for getting Intrusion Alert + + +Expected Output: +1. Check whether Alert is detected in Cloud +2. Check the time for getting the Intrusion Alert in the Mobile App + (Repeat the test procedure 5 time and note down the time) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Approach lamp ON request from app. +3. Perform ApprochLampState ON request from TCU. + +Expected Output: + + +I. Verify the following Message in the Cloud to TCU: + RemoteApproachCommand + +II. TCU set start remote light command Wake lock with timer Par_RemoteLightCmdWakeLock + +III. TCU wakeup BCM by activating hardwire wakeup line + +IV. TCU publish the TCU_NMPDU message over CAN + +V. Verify TCU set remote Approach ON request over CAN to BCM + RemoteApproachLmpCmd = 1 + RemoteApproachLmpCmdStatus = 0 + +VI.TCU export the RemoteApproachLmpCmd and RemoteApproachLmpCmdStatus to cloud platform as per TMCVP over GSM/GPRS communication. + +VII. Verify Approach Lamp details is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep + + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Approach lamp ON request from app. + +Expected Output: + + +I. Cloud shall wake up TCU over SMS + +II. Verify the following Message in the Cloud to TCU: + RemoteApproachCommand + +III. TCU set start remote light command Wake lock with timer Par_RemoteLightCmdWakeLock + +IV. TCU wakeup BCM by activating hardwire wakeup line + +V. TCU publish the TCU_NMPDU message over CAN + +VI. Verify TCU set remote Approach ON request over CAN to BCM + RemoteApproachLmpCmd = 1 + RemoteApproachLmpCmdStatus = 0 + +VII.TCU export the RemoteApproachLmpCmd and RemoteApproachLmpCmdStatus to cloud platform as per TMCVP over GSM/GPRS communication. + +VIII. Verify Approach Lamp details is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Approach lamp ON command from cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Power mode state = 6 +2. Perform remote Approach lamp ON request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemoteApproachCommand + +II. TCU shall ignore the command from cloud. + RemoteApproachCmd CAN signal shall not be in the CAN Bus + +III. Verify Approach Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Approach lamp ON command from cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Approach lamp ON request from app. +3. Set following signals from BCM + ApproachLmpTelltale = 1 + ApproachLmpTelltaleStatus = 0 + +Expected Output: +I. TCU read Approach lamp State (ApproachLmpTelltale) on CAN from BCM during Par_RemoteLightCmdWakeLock timer + +II. TCU send remote Approach ON request response (Response of RemoteApproachCommand) to Cloud as per TMCVP Document via GSM/GPRS communication + +III. TCU export StartLightEvent with Approach Lamp property to cloud platform as per TMCVP via GSM/GPRS communication. + +IV. Verify Approach Lamp details is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Approach lamp ON command from cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Approach lamp ON request from app. +3. Set following signals from BCM + ApproachLmpTelltale = 1 + ApproachLmpTelltaleStatus = 2 + +Expected Output: +I. Verify TCU shall discard the signal + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Approach lamp ON command from cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Approach lamp ON request from app. +3. Set following signals from BCM + ApproachLmpTelltale = 1 + ApproachLmpTelltaleStatus = 3 + +Expected Output: +I. Verify TCU shall discard the signal + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Approach lamp OFF request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud to TCU: + RemoteApproachCommand + +II. TCU set start remote light command Wake lock with timer Par_RemoteLightCmdWakeLock + +III. TCU wakeup BCM by activating hardwire wakeup line + +IV. TCU publish the TCU_NMPDU message over CAN + +V. Verify TCU set remote Approach OFF request over CAN to BCM + RemoteApproachLmpCmd = 0 + RemoteApproachLmpCmdStatus = 0 + +VI.TCU export the RemoteApproachLmpCmd and RemoteApproachLmpCmdStatus to cloud platform as per TMCVP over GSM/GPRS communication. + +VII. Verify Approach Lamp details is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep + + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Approach lamp OFF request from app. + +Expected Output: + + +I. Cloud shall wake up TCU over SMS + +II. Verify the following Message in the Cloud to TCU: + RemoteApproachCommand + +III. TCU set start remote light command Wake lock with timer Par_RemoteLightCmdWakeLock + +IV. TCU wakeup BCM by activating hardwire wakeup line + +V. TCU publish the TCU_NMPDU message over CAN + +VI. Verify TCU set remote Approach OFF request over CAN to BCM + RemoteApproachLmpCmd = 0 + RemoteApproachLmpCmdStatus = 0 + +VII.TCU export the RemoteApproachLmpCmd and RemoteApproachLmpCmdStatus to cloud platform as per TMCVP over GSM/GPRS communication. + +VIII. Verify Approach Lamp details is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Approach lamp ON command from cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Power mode state = 6 +2. Perform remote Approach lamp OFF request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemoteApproachCommand + +II. TCU shall ignore the command from cloud. + RemoteApproachCmd CAN signal shall not be in the CAN Bus + +III. Verify Approach Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Approach lamp ON command from cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Approach lamp OFF request from app. +3. Set following signals from BCM + ApproachLmpTelltale = 0 + ApproachLmpTelltaleStatus = 0 + +Expected Output: +I. TCU read Approach lamp State (ApproachLmpTelltale) on CAN from BCM during Par_RemoteLightCmdWakeLock timer + +II. TCU send remote Approach ON request response (Response of RemoteApproachCommand) to Cloud as per TMCVP Document via GSM/GPRS communication + +III. TCU export StartLightEvent with Approach Lamp property to cloud platform as per TMCVP via GSM/GPRS communication. + +IV. Verify Approach Lamp details is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Approach lamp ON command from cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Approach lamp OFF request from app. +3. Set following signals from BCM + ApproachLmpTelltale = 0 + ApproachLmpTelltaleStatus = 2 + +Expected Output: +I. Verify TCU shall discard the signal + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Approach lamp ON command from cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Approach lamp OFF request from app. +3. Set following signals from BCM + ApproachLmpTelltale = 0 + ApproachLmpTelltaleStatus = 3 + +Expected Output: +I. Verify TCU shall discard the signal + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Position lamp ON request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud to TCU: + RemotePositionCommand + +II. TCU set start remote light command Wake lock with timer Par_RemoteLightCmdWakeLock + +III. TCU wakeup BCM by activating hardwire wakeup line + +IV. TCU publish the TCU_NMPDU message over CAN + +V. Verify TCU set remote Position ON request over CAN to BCM + RemotePositionCmd = 1 + RemotePositionCmdStatus = 0 + +VI.TCU export the RemotePositionCmd and RemotePositionCmdStatus to cloud platform as per TMCVP over GSM/GPRS communication. + +VII. Verify Position Lamp details is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep + + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Position lamp ON request from app. + +Expected Output: + + +I. Cloud shall wake up TCU over SMS + +II. Verify the following Message in the Cloud to TCU: + RemotePositionCommand + +III. TCU set start remote light command Wake lock with timer Par_RemoteLightCmdWakeLock + +IV. TCU wakeup BCM by activating hardwire wakeup line + +V. TCU publish the TCU_NMPDU message over CAN + +VI. Verify TCU set remote Position ON request over CAN to BCM + RemotePositionCmd = 1 + RemotePositionCmdStatus = 0 + +VII.TCU export the RemotePositionCmd and RemotePositionCmdStatus to cloud platform as per TMCVP over GSM/GPRS communication. + +VIII. Verify Position Lamp details is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Position lamp ON command from cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Power mode state = 6 +2. Perform remote Position lamp ON request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemotePositionCommand + +II. TCU shall ignore the command from cloud. + RemotePositionCmd CAN signal shall not be in the CAN Bus + +III. Verify Position Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Position lamp ON command from cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Position lamp ON request from app. +3. Set following signals from BCM + PositionLmpTelltale = 1 + PositionLmpTelltaleStatus = 0 + +Expected Output: +I. TCU read Position lamp State (PositionLmpTelltale) on CAN from BCM during Par_RemoteLightCmdWakeLock timer + +II. TCU send remote Position ON request response (Response of RemotePositionCommand) to Cloud as per TMCVP Document via GSM/GPRS communication + +III. TCU export StartLightEvent with Position Lamp property to cloud platform as per TMCVP via GSM/GPRS communication. + +IV. Verify Position Lamp details is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Position lamp OFF request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud to TCU: + RemotePositionCommand + +II. TCU set start remote light command Wake lock with timer Par_RemoteLightCmdWakeLock + +III. TCU wakeup BCM by activating hardwire wakeup line + +IV. TCU publish the TCU_NMPDU message over CAN + +V. Verify TCU set remote Position OFF request over CAN to BCM + RemotePositionCmd = 0 + RemotePositionCmdStatus = 0 + +VI.TCU export the RemotePositionCmd and RemotePositionCmdStatus to cloud platform as per TMCVP over GSM/GPRS communication. + +VII. Verify Position Lamp details is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp Off request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep + + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Position lamp OFF request from app. + +Expected Output: + + +I. Cloud shall wake up TCU over SMS + +II. Verify the following Message in the Cloud to TCU: + RemotePositionCommand + +III. TCU set start remote light command Wake lock with timer Par_RemoteLightCmdWakeLock + +IV. TCU wakeup BCM by activating hardwire wakeup line + +V. TCU publish the TCU_NMPDU message over CAN + +VI. Verify TCU set remote Position OFF request over CAN to BCM + RemotePositionCmd = 0 + RemotePositionCmdStatus = 0 + +VII.TCU export the RemotePositionCmd and RemotePositionCmdStatus to cloud platform as per TMCVP over GSM/GPRS communication. + +VIII. Verify Position Lamp details is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp Off request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Power mode state = 6 +2. Perform remote Position lamp OFF request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemotePositionCommand + +II. TCU shall ignore the command from cloud. + RemotePositionCmd CAN signal shall not be in the CAN Bus + +III. Verify Position Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp Off request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Position lamp OFF request from app. +3. Set following signals from BCM + PositionLmpTelltale = 0 + PositionLmpTelltaleStatus = 0 + +Expected Output: +I. TCU read Position lamp State (PositionLmpTelltale) on CAN from BCM during Par_RemoteLightCmdWakeLock timer + +II. TCU send remote Position ON request response (Response of RemotePositionCommand) to Cloud as per TMCVP Document via GSM/GPRS communication + +III. TCU export StartLightEvent with Position Lamp property to cloud platform as per TMCVP via GSM/GPRS communication. + +IV. Verify Position Lamp details is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Hazard lamp ON request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud to TCU: + RemoteHazardCommand + +II. TCU set start remote light command Wake lock with timer Par_RemoteLightCmdWakeLock + +III. TCU wakeup BCM by activating hardwire wakeup line + +IV. TCU publish the TCU_NMPDU message over CAN + +V. Verify TCU set remote Hazard ON request over CAN to BCM + RemoteHazardCmd = 1 + RemoteHazardCmdStatus = 0 + +VI.TCU export the RemoteHazardCmd and RemoteHazardCmdStatus to cloud platform as per TMCVP over GSM/GPRS communication. + +VII. Verify Hazard Lamp details is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep + + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Hazard lamp ON request from app. + +Expected Output: + + +I. Cloud shall wake up TCU over SMS + +II. Verify the following Message in the Cloud to TCU: + RemoteHazardCommand + +III. TCU set start remote light command Wake lock with timer Par_RemoteLightCmdWakeLock + +IV. TCU wakeup BCM by activating hardwire wakeup line + +V. TCU publish the TCU_NMPDU message over CAN + +VI. Verify TCU set remote Hazard ON request over CAN to BCM + RemoteHazardCmd = 1 + RemoteHazardCmdStatus = 0 + +VII.TCU export the RemoteHazardCmd and RemoteHazardCmdStatus to cloud platform as per TMCVP over GSM/GPRS communication. + +VIII. Verify Hazard Lamp details is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Hazard lamp ON command from cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Power mode state = 6 +2. Perform remote Hazard lamp ON request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemoteHazardCommand + +II. TCU shall ignore the command from cloud. + RemoteHazardCmd CAN signal shall not be in the CAN Bus + +III. Verify Hazard Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Hazard lamp ON command from cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Hazard lamp ON request from app. +3. Set following signals from BCM + HazardLmpTelltale = 1 + HazardLmpTelltaleStatus = 0 + +Expected Output: +I. TCU read Hazard lamp State (HazardLmpTelltale) on CAN from BCM during Par_RemoteLightCmdWakeLock timer + +II. TCU send remote Hazard ON request response (Response of RemoteHazardCommand) to Cloud as per TMCVP Document via GSM/GPRS communication + +III. TCU export StartLightEvent with Hazard Lamp property to cloud platform as per TMCVP via GSM/GPRS communication. + +IV. Verify Hazard Lamp details is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Hazard lamp OFF request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud to TCU: + RemoteHazardCommand + +II. TCU set start remote light command Wake lock with timer Par_RemoteLightCmdWakeLock + +III. TCU wakeup BCM by activating hardwire wakeup line + +IV. TCU publish the TCU_NMPDU message over CAN + +V. Verify TCU set remote Hazard OFF request over CAN to BCM + RemoteHazardCmd = 0 + RemoteHazardCmdStatus = 0 + +VI. Verify BCM respond the Hazard Lamp ON/OFF Status to TCU + +VII.TCU export the RemoteHazardCmd and RemoteHazardCmdStatus to cloud platform as per TMCVP over GSM/GPRS communication. + +VIII. Verify Hazard Lamp details is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep + + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Hazard lamp OFF request from app. + +Expected Output: + + +I. Cloud shall wake up TCU over SMS + +II. Verify the following Message in the Cloud to TCU: + RemoteHazardCommand + +III. TCU set start remote light command Wake lock with timer Par_RemoteLightCmdWakeLock + +IV. TCU wakeup BCM by activating hardwire wakeup line + +V. TCU publish the TCU_NMPDU message over CAN + +VI. Verify TCU set remote Hazard OFF request over CAN to BCM + RemoteHazardCmd = 0 + RemoteHazardCmdStatus = 0 + +VII. Verify BCM respond the Hazard Lamp ON/OFF Status to TCU + +VIII.TCU export the RemoteHazardCmd and RemoteHazardCmdStatus to cloud platform as per TMCVP over GSM/GPRS communication. + +IX. Verify Hazard Lamp details is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives remote Hazard lamp ON command from cloud. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Ignition ON + Power mode state = 6 +2. Perform remote Hazard lamp OFF request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemoteHazardCommand + +II. TCU shall ignore the command from cloud. + RemoteHazardCmd CAN signal shall not be in the CAN Bus + +III. Verify Hazard Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Hazard lamp OFF request from app. +3. Set following signals from BCM + HazardLmpTelltale = 0 + HazardLmpTelltaleStatus = 0 + +Expected Output: +I. TCU read Hazard lamp State (HazardLmpTelltale) on CAN from BCM during Par_RemoteLightCmdWakeLock timer + +II. TCU send remote Hazard ON request response (Response of RemoteHazardCommand) to Cloud as per TMCVP Document via GSM/GPRS communication + +III. TCU export StartLightEvent with Hazard Lamp property to cloud platform as per TMCVP via GSM/GPRS communication. + +IV. Verify Hazard Lamp details is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Approach Lamp is OFF +5) Set Approach lamp duration for 30sec from vehicle settings + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Approach lamp ON request from app. + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II. Verify TCU is not generating unintended events +Eg : Vehicle unlock event +III.Verify BCM is turning approach lamp ON by seeing BCM_RC5 message on CAN +IV. TCU send success response for approach lamp command to Cloud +V. Verify that Light Start event is exported to cloud +VI. Verify Approach lamp ON status is updated in the Mobile App +VII. Verify Approach lamp turn on for the set duration only(30 Sec). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Approach Lamp is OFF +5) Set Approach lamp duration for 30sec from vehicle settings + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Approach lamp ON request from app. + +Expected Output: + + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III.Verify BCM is turning approach lamp ON by seeing BCM_RC5 message on CAN +IV. TCU send success response for approach lamp command to Cloud +V. Verify that Light Start event is exported to cloud +VI. Verify Approach lamp ON status is updated in the Mobile App +VII. Verify Approach lamp turn on for the set duration only(30 Sec). +VIII. Verify Roof Lamp Turns ON + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Approach Lamp is OFF +5) Set Approach lamp duration for 60sec from vehicle settings + +Test Procedure: +1. Vehicle is in Ignition ON +2. Perform remote Approach lamp ON request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemoteApproachCommand + +II. TCU shall ignore the command from cloud. + I. RemoteApproachCmd CAN signal shall not be in the CAN Bus + II. Verify TCU is not generating unintended events +Eg : Vehicle unlock event +III. Verify Approach Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Approach Lamp is ON +5) Set Approach lamp duration for 60sec from vehicle settings + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Approach lamp ON request from app. + +Expected Output: + + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle unlock event +IV.TCU send success response for approach lamp command to Cloud as it is already ON in vehicle +V. Verify that NO Light Start event is exported to cloud +VII. Verify Approach lamp ON status is updated in the Mobile App +VIII. Verify Approach lamp turn on for the set duration only(60 Sec). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Approach lamp OFF request from app. + +Expected Output: + + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II. Verify TCU is not generating unintended events +Eg : Vehicle unlock event +III.Verify BCM is turning approach lamp OFF by seeing BCM_RC5 message on CAN +IV. TCU send success response for approach lamp OFF command to Cloud +V. Verify that Light Stop event is exported to cloud +VI. Verify Approach lamp OFF status is updated in the Mobile App +VII. Verify Roof Lamp turns OFF + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Approach Lamp is ON + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Approach lamp OFF request from app. + +Expected Output: + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. IVerify TCU is not generating unintended events +Eg : Vehicle unlock event +IV. Verify BCM is turning approach lamp OFF by seeing BCM_RC5 message on CAN +V.TCU send success response for approach lamp command to Cloud +VI. Verify that Light Stop event is exported to cloud +VII. Verify Approach lamp OFF status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Approach Lamp is ON + +Test Procedure: +1. Set the Power Mode as Ignition ON + Power mode state = 6 +2. Perform remote Approach lamp OFF request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemoteApproachCommand + +II. TCU shall ignore the command from cloud. + I. RemoteApproachCmd CAN signal shall not be in the CAN Bus + II. Verify TCU is not generating unintended events +Eg : Vehicle unlock event + +III. Verify Approach Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Position lamp ON request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud to TCU: + RemotePositionCommand + +II. TCU set start remote light command Wake lock with timer Par_RemoteLightCmdWakeLock + +III. TCU wakeup BCM by activating hardwire wakeup line + +IV. TCU publish the TCU_NMPDU message over CAN + +V. Verify TCU set remote Position ON request over CAN to BCM + RemotePositionCmd = 1 + RemotePositionCmdStatus = 0 + +VI.TCU export the RemotePositionCmd and RemotePositionCmdStatus to cloud platform as per TMCVP over GSM/GPRS communication. + +VII. Verify Position Lamp details is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Position lamp ON request from app. + +Expected Output: +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +III. Verify BCM is turning position lamp ON by seeing BCM_HU_IC_Trailer message on CAN +IV.TCU send success response for position lamp command to Cloud +V. Verify that Light Start event is exported to cloud +VI. Verify Position lamp ON status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Position lamp ON request from app. + +Expected Output: + + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +IV. Verify BCM is turning position lamp ON by seeing BCM_HU_IC_Trailer message on CAN +V.TCU send success response for position lamp command to Cloud +VI. Verify that Light Start event is exported to cloud +VII. Verify Position lamp ON status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is in Ignition ON +2. Perform remote Position lamp ON request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemotePositionCommand + +II. TCU shall ignore the command from cloud. + I. RemotePositionCmd CAN signal shall not be in the CAN Bus + II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event + +III. Verify Position Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Position lamp OFF request from app. + +Expected Output: +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +III. Verify BCM is turning position lamp OFF by seeing BCM_HU_IC_Trailer message on CAN +IV.TCU send success response for Position lamp command to Cloud +V. Verify that Light Stop event is exported to cloud +VI. Verify Position lamp OFF status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Position Lamp is ON + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Position lamp OFF request from app. + +Expected Output: + + + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +IV. Verify BCM is turning position lamp OFF by seeing BCM_HU_IC_Trailer message on CAN +V.TCU send success response for Position lamp command to Cloud +VI. Verify that Light Stop event is exported to cloud +VII. Verify Position lamp OFF status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Position Lamp is ON + +Test Procedure: +1. Set the Power Mode as Ignition ON + Power mode state = 6 +2. Perform remote Position lamp OFF request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemotePositionCommand + +II. TCU shall ignore the command from cloud. + I. RemotePositionCmd CAN signal shall not be in the CAN Bus + II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +III. Verify Position Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Position Lamp is OFF + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Position lamp OFF request from app. + +Expected Output: + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +IV .TCU send success response for position lamp command to Cloud as position lamp is already OFF +V. Verify that NO Light Stop event is exported to cloud +VI. Verify Position lamp OFF status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Hazard lamp ON request from app. + +Expected Output: + +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +III.Verify BCM is turning Hazard lamp ON and check the signal Hazardlampstate in BCM_RC5 +IV. Verify BCM respond the Hazard Lamp ON/OFF Status to TCU +V. TCU send vehicle hazard lamp ON request response Success to Cloud +VI. Verify that TCU export the Light Start event to cloud platform +VII. Verify Hazard lamp status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Hazard lamp ON request from app. + +Expected Output: +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +IV.Verify BCM is turning Hazard lamp ON and check the signal Hazardlampstate in BCM_RC5 +Verify BCM respond the Hazard Lamp ON/OFF Status to TCU +VI. TCU send vehicle hazard lamp ON request response Success to Cloud +VII. Verify that TCU export the Light Start event to cloud platform +VIII. Verify Hazard lamp status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is in Ignition ON +2. Perform remote Hazard lamp ON request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemoteHazardCommand + +II. TCU shall ignore the command from cloud. + I. RemoteHazardCmd CAN signal shall not be in the CAN Bus + II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +III. Verify Hazard Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Hazard lamp ON request from app. + +Expected Output: + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +IV.TCU send vehicle hazard lamp ON request response Success to Cloud as hazard lamp is already ON +V. Verify that TCU export the NO Light Start event to cloud platform +VI. Verify Hazard lamp status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Hazard lamp OFF request from app. + +Expected Output: + +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +III.Verify BCM is turning Hazard lamp OFF and check the signal Hazardlampstate in BCM_RC5 +IV.Verify BCM respond the Hazard Lamp ON/OFF Status to TCU +V. TCU send vehicle hazard lamp OFF request response Success to Cloud +VI. Verify that TCU export the Light Stop event to cloud platform +VII. Verify Hazard lamp status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Hazard Lamp is ON + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Hazard lamp OFF request from app. + +Expected Output: + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +IV.Verify BCM is turning Hazard lamp OFF and check the signal Hazardlampstate in BCM_RC5 +V. Verify BCM respond the Hazard Lamp ON/OFF Status to TCU +VI. TCU send vehicle hazard lamp OFF request response Success to Cloud +VII. Verify that TCU export the Light Stop event to cloud platform +VIII. Verify Hazard lamp status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Hazard Lamp is ON + +Test Procedure: +1. Set the Power Mode as Ignition ON + Power mode state = 6 +2. Perform remote Hazard lamp OFF request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemoteHazardCommand + +II. TCU shall ignore the command from cloud. + I. RemoteHazardCmd CAN signal shall not be in the CAN Bus + II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +III. Verify Hazard Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Hazard Lamp is OFF + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Hazard lamp OFF request from app. + +Expected Output: +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +IV.TCU send vehicle hazard lamp OFF request response Success to Cloud as hazard lamp is already OFF +V. Verify that TCU export the NO Light Stop event to cloud platform +VI. Verify Hazard lamp status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Mobile App request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp ON Request from App + + +Expected Output: +1. Check the time taken for turning ON the remote Approach Lamp +2. Check the time taken for getting the Acknowledgement in the Mobile App + (Repeat the Test procedure 5 times and note the Time taken for processing the request) +3. Command execution time should be less than 10 sec and acknowledgement should be received in less than 20 sec (Measured from the time command is given). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Mobile App request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp OFF Request from App + + +Expected Output: +1. Check the time taken for turning OFF the remote Approach Lamp +2. Check the time taken for getting the Acknowledgement in the Mobile App + (Repeat the Test procedure 5 times and note the Time taken for processing the request) +3. Command execution time should be less than 10 sec and acknowledgement should be received in less than 20 sec (Measured from the time command is given). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake +4) Approach Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp ON Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp OFF Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in signal strength weak condition + +Pre-condition: +1) TCU with a functioning SIM +2) Signal strength between Cloud and Mobile App is Weak +3) TCU is Awake +4) Approach Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp ON Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in signal strength weak condition + +Pre-condition: +1) TCU with a functioning SIM +2) Signal strength between Cloud and Mobile App is Weak +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp OFF Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Approach Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp ON Request from App + + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt. +3. Verify Remote Vehicle Unlock command at the platform is timed out after 1 min +4. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp OFF Request from App + + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network comes after requesting from the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Approach Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a remote approch lamp off request from app +3.Cloud to TCU network become strengthen after the request + +Expected Output: +1. Check whether the request will process or not. +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network comes after requesting from the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a remote approch lamp on request from app +3.Cloud to TCU network become strengthen after the request + +Expected Output: +1. Check whether the request will process or not. +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) Approach Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2.Perform a remote approach lamp on request from app +3.Check the cloud retry mechanism (How many times cloud shall retry to process the request) + +Expected Output: +1. Check Cloud shall discard the request after several attempt. +2 Verify Remote Vehicle Unlock command at the platform is timed out after 1 min +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2.Perform a remote approach lamp off request from app +3.Check the cloud retry mechanism (How many times cloud shall retry to process the request) + +Expected Output: +1. Check Cloud shall discard the request after several attempt. +2 Verify Remote command at the platform is timed out after 1 min +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior while Mobile App Closed Crash during requesting + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Approach Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp ON Request from App +3. Close the App after Approach Lamp ON Request. + + +Expected Output: +1. Check whether the request will process or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior while Mobile App Closed Crash during requesting + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp OFF Request from App +3. Close the App after Approach Lamp OFF Request. + + +Expected Output: +1. Check whether the request will process or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Approach Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp ON Request from App +3. Perform a Remote Approach Lamp OFF Request from Vehicle at the same time + + +Expected Output: +1. Verify the Approach Lamp output + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp OFF Request from App +3. Perform a Remote Approach Lamp ON Request from Vehicle at the same time + + +Expected Output: +1. Verify the Approach Lamp output + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Approach lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Approach Lamp is ON manually from vehicle +3. Perform Approach lamp ON command from App + +Expected Output: + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II. TCU send success response for approach lamp command to Cloud +III. Verify that Light Start event is exported to cloud +IV. Verify Approach lamp ON status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Approach lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Approach Lamp is OFF manually from vehicle +3. Perform Approach lamp ON command from App + +Expected Output: + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II. TCU send success response for approach lamp command to Cloud +III. Verify that Light Start event is exported to cloud +IV. Verify Approach lamp ON status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Approach lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform approach Lamp is ON from remote key +3. Perform Approach lamp ON command from App + +Expected Output: + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II. TCU send success response for approach lamp command to Cloud +III. Verify that Light Start event is exported to cloud +IV. Verify Approach lamp ON status is updated in the Mobile App +V. Verify Position Lamp status is updated along with Approach Lamp status +VI . Verify Position Lamp remain in the previous state + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Mobile App request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App + + +Expected Output: +1. Check the time taken for turning ON the remote Position Lamp +2. Check the time taken for getting the Acknowledgement in the Mobile App + (Repeat the Test procedure 5 times and note the Time taken for processing the request) +3. Command execution time should be less than 10 sec and acknowledgement should be received in less than 20 sec (Measured from the time command is given). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Mobile App request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App + + +Expected Output: +1. Check the time taken for turning OFF the remote Position Lamp +2. Check the time taken for getting the Acknowledgement in the Mobile App + (Repeat the Test procedure 5 times and note the Time taken for processing the request) +3. Command execution time should be less than 10 sec and acknowledgement should be received in less than 20 sec (Measured from the time command is given). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Verify Remote command at the platform is timed out after 1 min +4. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Verify Remote command at the platform is timed out after 1 min +4. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in signal strength weak condition + +Pre-condition: +1) TCU with a functioning SIM +2) Signal strength between Cloud and Mobile App is Weak +3) TCU is Awake +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in signal strength weak condition + +Pre-condition: +1) TCU with a functioning SIM +2) Signal strength between Cloud and Mobile App is Weak +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App + + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App + + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network comes after requesting from the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App +3. Cloud to TCU Network become strengthen after the request + + +Expected Output: +1. Check whether the request will process or not. +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network comes after requesting from the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App +3. Cloud to TCU Network become strengthen after the request + + +Expected Output: +1. Check whether the request will process or not. +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App +3. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) + + +Expected Output: +1. Check Cloud shall discard the request after several attempt. +2. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App +3. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) + + +Expected Output: +1. Check Cloud shall discard the request after several attempt. +2. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the how the request is processed in case of TCU failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App +3. TCU to be disconnected to simulate TCU failure condition. + + +Expected Output: +1. Check the Mobile App and vehicle behavior when TCU fail to process the request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the how the request is processed in case of TCU failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App +3. TCU to be disconnected to simulate TCU failure condition. + + +Expected Output: +1. Check the Mobile App and vehicle behavior when TCU fail to process the request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior while Mobile App Crash Close during requesting + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App +3. Close the App after Position Lamp ON Request. + + +Expected Output: +1. Check whether the request will process or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior while Mobile App crash Close during requesting + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App +3. Close the App after Position Lamp OFF Request. + + +Expected Output: +1. Check whether the request will process or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App +3. Perform a Remote Position Lamp OFF ON Request from Vehicle at the same time + + +Expected Output: +1. Verify the Position Lamp output + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App +3. Perform a Remote Position Lamp ON Request from Vehicle at the same time + + +Expected Output: +1. Verify the Position Lamp output + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is already ON by manual switch + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App +3. Perform a Remote Position Lamp ON Request from Vehicle at the same time +4. Verify the Position Lamp output + +Expected Output: +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.TCU send success response for position lamp command to Cloud +IV. Verify that Light Start event is exported to cloud +V. Verify Position lamp ON status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is OFF by manual switch + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App +3. Perform a Remote Position Lamp ON Request from Vehicle at the same time +4. Verify the Position Lamp output + +Expected Output: +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II. Verify BCM is turning position lamp ON by seeing BCM_HU_IC_Trailer message on CAN +III.TCU send success response for position lamp command to Cloud +IV. Verify that Light Start event is exported to cloud +V. Verify Position lamp ON status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Mobile App request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App + + +Expected Output: +1. Check the time taken for turning ON the remote Hazard Lamp +2. Check the time taken for getting the Acknowledgement in the Mobile App + (Repeat the Test procedure 5 times and note the Time taken for processing the request) +3. Command execution time should be less than 10 sec and acknowledgement should be received in less than 20 sec (Measured from the time command is given). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Mobile App request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App + + +Expected Output: +1. Check the time taken for turning OFF the remote Hazard Lamp +2. Check the time taken for getting the Acknowledgement in the Mobile App + (Repeat the Test procedure 5 times and note the Time taken for processing the request) +3. Command execution time should be less than 10 sec and acknowledgement should be received in less than 20 sec (Measured from the time command is given). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in signal strength weak condition + +Pre-condition: +1) TCU with a functioning SIM +2) Signal strength between Cloud and Mobile App is Weak +3) TCU is Awake +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in signal strength weak condition + +Pre-condition: +1) TCU with a functioning SIM +2) Signal strength between Cloud and Mobile App is Weak +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App + + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt +3. Verify Remote command at the platform is timed out after 1 min. +4. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App + + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt. +3. Verify Remote command at the platform is timed out after 1 min +4. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network comes after requesting from the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App +3. Cloud to TCU Network become strengthen after the request + + +Expected Output: +1. Check whether the request will process or not. +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network comes after requesting from the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App +3. Cloud to TCU Network become strengthen after the request + + +Expected Output: +1. Check whether the request will process or not. +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App +3. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) + + +Expected Output: +1. Check Cloud shall discard the request after several attempt. +2. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App +3. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) + + +Expected Output: +1. Check Cloud shall discard the request after several attempt. +2. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the how the request is processed in case of TCU failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App +3. TCU to be disconnected to simulate TCU failure condition. + + + +Expected Output: +1. Check the Mobile App and vehicle behavior when TCU fail to process the request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the how the request is processed in case of TCU failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App +3. TCU to be disconnected to simulate TCU failure condition. + + +Expected Output: +1. Check the Mobile App and vehicle behavior when TCU fail to process the request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior while Mobile App Crash Close during requesting + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App +3. Close the App after Hazard Lamp ON Request. + + +Expected Output: +1. Check whether the request will process or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior while Mobile App Crash Close during requesting + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App +3. Close the App after Hazard Lamp OFF Request. + + +Expected Output: +1. Check whether the request will process or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App +3. Perform a Remote Hazard Lamp OFF Request from Vehicle at the same time + + +Expected Output: +1. Verify the Hazard Lamp output + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App +3. Perform a Remote Hazard Lamp ON Request from Vehicle at the same time + + +Expected Output: +1. Verify the Hazard Lamp output + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is ON by manual switch + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App + + +Expected Output: +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is turning Hazard lamp OFF and check the signal Hazardlampstate in BCM_RC5 +III. TCU send vehicle hazard lamp OFF request response Success to Cloud +IV. Verify that TCU export the Light Stop event to cloud platform +V. Verify Hazard lamp status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is OFF by manual switch + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App +3. Perform a Remote Hazard Lamp ON Request from App + +Expected Output: +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is turning Hazard lamp ON and check the signal Hazardlampstate in BCM_RC5 +III. TCU send vehicle hazard lamp ON request response Success to Cloud +IV. Verify that TCU export the Light Start event to cloud platform +V. Verify Hazard lamp status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Approach Lamp is OFF +5) Set Approach lamp duration for 30sec from vehicle settings + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Approach lamp ON request from app. + +Expected Output: + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II. Verify TCU is not generating unintended events +Eg : Vehicle unlock event +III.Verify BCM is turning approach lamp ON by seeing BCM_RC5 message on CAN +IV. TCU send success response for approach lamp command to Cloud +V. Verify that Light Start event is exported to cloud +VI. Verify Approach lamp ON status is updated in the Mobile App +VII. Verify Approach lamp turn on for the set duration only(30 Sec). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Approach Lamp is OFF +5) Set Approach lamp duration for 30sec from vehicle settings + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Approach lamp ON request from app. + +Expected Output: + + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III.Verify BCM is turning approach lamp ON by seeing BCM_RC5 message on CAN +IV. TCU send success response for approach lamp command to Cloud +V. Verify that Light Start event is exported to cloud +VI. Verify Approach lamp ON status is updated in the Mobile App +VII. Verify Approach lamp turn on for the set duration only(30 Sec). +VIII. Verify Roof Lamp Turns ON + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Approach Lamp is OFF +5) Set Approach lamp duration for 60sec from vehicle settings + +Test Procedure: +1. Vehicle is in Ignition ON +2. Perform remote Approach lamp ON request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemoteApproachCommand + +II. TCU shall ignore the command from cloud. + I. RemoteApproachCmd CAN signal shall not be in the CAN Bus + II. Verify TCU is not generating unintended events +Eg : Vehicle unlock event +III. Verify Approach Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Approach Lamp is ON +5) Set Approach lamp duration for 60sec from vehicle settings + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Approach lamp ON request from app. + +Expected Output: + + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle unlock event +IV.TCU send success response for approach lamp command to Cloud as it is already ON in vehicle +V. Verify that NO Light Start event is exported to cloud +VII. Verify Approach lamp ON status is updated in the Mobile App +VIII. Verify Approach lamp turn on for the set duration only(60 Sec). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Approach lamp OFF request from app. + +Expected Output: + + + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II. Verify TCU is not generating unintended events +Eg : Vehicle unlock event +III.Verify BCM is turning approach lamp OFF by seeing BCM_RC5 message on CAN +IV. TCU send success response for approach lamp OFF command to Cloud +V. Verify that Light Stop event is exported to cloud +VI. Verify Approach lamp OFF status is updated in the Mobile App +VII. Verify Roof Lamp turns OFF + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Approach Lamp is ON + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Approach lamp OFF request from app. + +Expected Output: + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. IVerify TCU is not generating unintended events +Eg : Vehicle unlock event +IV. Verify BCM is turning approach lamp OFF by seeing BCM_RC5 message on CAN +V.TCU send success response for approach lamp command to Cloud +VI. Verify that Light Stop event is exported to cloud +VII. Verify Approach lamp OFF status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Approach lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Approach Lamp is ON + +Test Procedure: +1. Set the Power Mode as Ignition ON + Power mode state = 6 +2. Perform remote Approach lamp OFF request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemoteApproachCommand + +II. TCU shall ignore the command from cloud. + I. RemoteApproachCmd CAN signal shall not be in the CAN Bus + II. Verify TCU is not generating unintended events +Eg : Vehicle unlock event + +III. Verify Approach Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake + + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Position lamp ON request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud to TCU: + RemotePositionCommand + +II. TCU set start remote light command Wake lock with timer Par_RemoteLightCmdWakeLock + +III. TCU wakeup BCM by activating hardwire wakeup line + +IV. TCU publish the TCU_NMPDU message over CAN + +V. Verify TCU set remote Position ON request over CAN to BCM + RemotePositionCmd = 1 + RemotePositionCmdStatus = 0 + +VI.TCU export the RemotePositionCmd and RemotePositionCmdStatus to cloud platform as per TMCVP over GSM/GPRS communication. + +VII. Verify Position Lamp details is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Position lamp ON request from app. + +Expected Output: +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +III. Verify BCM is turning position lamp ON by seeing BCM_HU_IC_Trailer message on CAN +IV.TCU send success response for position lamp command to Cloud +V. Verify that Light Start event is exported to cloud +VI. Verify Position lamp ON status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Position lamp ON request from app. + +Expected Output: + + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +IV. Verify BCM is turning position lamp ON by seeing BCM_HU_IC_Trailer message on CAN +V.TCU send success response for position lamp command to Cloud +VI. Verify that Light Start event is exported to cloud +VII. Verify Position lamp ON status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is in Ignition ON +2. Perform remote Position lamp ON request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemotePositionCommand + +II. TCU shall ignore the command from cloud. + I. RemotePositionCmd CAN signal shall not be in the CAN Bus + II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event + +III. Verify Position Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Position lamp OFF request from app. + +Expected Output: +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +III. Verify BCM is turning position lamp OFF by seeing BCM_HU_IC_Trailer message on CAN +IV.TCU send success response for Position lamp command to Cloud +V. Verify that Light Stop event is exported to cloud +VI. Verify Position lamp OFF status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Position Lamp is ON + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Position lamp OFF request from app. + +Expected Output: + + + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +IV. Verify BCM is turning position lamp OFF by seeing BCM_HU_IC_Trailer message on CAN +V.TCU send success response for Position lamp command to Cloud +VI. Verify that Light Stop event is exported to cloud +VII. Verify Position lamp OFF status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Position Lamp is ON + +Test Procedure: +1. Set the Power Mode as Ignition ON + Power mode state = 6 +2. Perform remote Position lamp OFF request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemotePositionCommand + +II. TCU shall ignore the command from cloud. + I. RemotePositionCmd CAN signal shall not be in the CAN Bus + II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +III. Verify Position Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Position lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Position Lamp is OFF + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Position lamp OFF request from app. + +Expected Output: + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +IV .TCU send success response for position lamp command to Cloud as position lamp is already OFF +V. Verify that NO Light Stop event is exported to cloud +VI. Verify Position lamp OFF status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Hazard lamp ON request from app. + +Expected Output: + +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +III.Verify BCM is turning Hazard lamp ON and check the signal Hazardlampstate in BCM_RC5 +IV. Verify BCM respond the Hazard Lamp ON/OFF Status to TCU +V. TCU send vehicle hazard lamp ON request response Success to Cloud +VI. Verify that TCU export the Light Start event to cloud platform +VII. Verify Hazard lamp status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Hazard lamp ON request from app. + +Expected Output: +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +IV.Verify BCM is turning Hazard lamp ON and check the signal Hazardlampstate in BCM_RC5 +Verify BCM respond the Hazard Lamp ON/OFF Status to TCU +VI. TCU send vehicle hazard lamp ON request response Success to Cloud +VII. Verify that TCU export the Light Start event to cloud platform +VIII. Verify Hazard lamp status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is in Ignition ON +2. Perform remote Hazard lamp ON request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemoteHazardCommand + +II. TCU shall ignore the command from cloud. + I. RemoteHazardCmd CAN signal shall not be in the CAN Bus + II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +III. Verify Hazard Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp ON request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Hazard lamp ON request from app. + +Expected Output: + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +IV.TCU send vehicle hazard lamp ON request response Success to Cloud as hazard lamp is already ON +V. Verify that TCU export the NO Light Start event to cloud platform +VI. Verify Hazard lamp status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform remote Hazard lamp OFF request from app. + +Expected Output: + +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message 10 times with an interval of 200ms on CAN +II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +III.Verify BCM is turning Hazard lamp OFF and check the signal Hazardlampstate in BCM_RC5 +IV.Verify BCM respond the Hazard Lamp ON/OFF Status to TCU +V. TCU send vehicle hazard lamp OFF request response Success to Cloud +VI. Verify that TCU export the Light Stop event to cloud platform +VII. Verify Hazard lamp status is updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Hazard Lamp is ON + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Hazard lamp OFF request from app. + +Expected Output: + +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +IV.Verify BCM is turning Hazard lamp OFF and check the signal Hazardlampstate in BCM_RC5 +V. Verify BCM respond the Hazard Lamp ON/OFF Status to TCU +VI. TCU send vehicle hazard lamp OFF request response Success to Cloud +VII. Verify that TCU export the Light Stop event to cloud platform +VIII. Verify Hazard lamp status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Hazard Lamp is ON + +Test Procedure: +1. Set the Power Mode as Ignition ON + Power mode state = 6 +2. Perform remote Hazard lamp OFF request from app. + +Expected Output: + + +I. Verify the following Message in the Cloud. + RemoteHazardCommand + +II. TCU shall ignore the command from cloud. + I. RemoteHazardCmd CAN signal shall not be in the CAN Bus + II. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +III. Verify Hazard Lamp details is not updated in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud receives remote Hazard lamp OFF request from app. + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Sleep +4) Hazard Lamp is OFF + +Test Procedure: +1. Set the Power Mode as Awake + Power mode state = 1 +2. Perform remote Hazard lamp OFF request from app. + +Expected Output: +I. Verify that TCU is getting wakeup by receiving SMS from Mobile App, TCU's LED should starts blinking +II. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +III. Verify TCU is not generating unintended events +Eg : Vehicle Lock/unlock event +IV.TCU send vehicle hazard lamp OFF request response Success to Cloud as hazard lamp is already OFF +V. Verify that TCU export the NO Light Stop event to cloud platform +VI. Verify Hazard lamp status is not updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Mobile App request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp ON Request from App + + +Expected Output: +1. Check the time taken for turning ON the remote Approach Lamp +2. Check the time taken for getting the Acknowledgement in the Mobile App + (Repeat the Test procedure 5 times and note the Time taken for processing the request) +3. Command execution time should be less than 10 sec and acknowledgement should be received in less than 20 sec (Measured from the time command is given). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Mobile App request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp OFF Request from App + + +Expected Output: +1. Check the time taken for turning OFF the remote Approach Lamp +2. Check the time taken for getting the Acknowledgement in the Mobile App + (Repeat the Test procedure 5 times and note the Time taken for processing the request) +3. Command execution time should be less than 10 sec and acknowledgement should be received in less than 20 sec (Measured from the time command is given). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake +4) Approach Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp ON Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp OFF Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in signal strength weak condition + +Pre-condition: +1) TCU with a functioning SIM +2) Signal strength between Cloud and Mobile App is Weak +3) TCU is Awake +4) Approach Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp ON Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in signal strength weak condition + +Pre-condition: +1) TCU with a functioning SIM +2) Signal strength between Cloud and Mobile App is Weak +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp OFF Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Approach Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp ON Request from App + + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt. +3. Verify Remote Vehicle Unlock command at the platform is timed out after 1 min +4. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp OFF Request from App + + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network comes after requesting from the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Approach Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a remote approch lamp off request from app +3.Cloud to TCU network become strengthen after the request + +Expected Output: +1. Check whether the request will process or not. +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network comes after requesting from the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a remote approch lamp on request from app +3.Cloud to TCU network become strengthen after the request + +Expected Output: +1. Check whether the request will process or not. +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) Approach Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2.Perform a remote approach lamp on request from app +3.Check the cloud retry mechanism (How many times cloud shall retry to process the request) + +Expected Output: +1. Check Cloud shall discard the request after several attempt. +2 Verify Remote Vehicle Unlock command at the platform is timed out after 1 min +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2.Perform a remote approach lamp off request from app +3.Check the cloud retry mechanism (How many times cloud shall retry to process the request) + +Expected Output: +1. Check Cloud shall discard the request after several attempt. +2 Verify Remote command at the platform is timed out after 1 min +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior while Mobile App Closed Crash during requesting + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Approach Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp ON Request from App +3. Close the App after Approach Lamp ON Request. + + +Expected Output: +1. Check whether the request will process or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior while Mobile App Closed Crash during requesting + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp OFF Request from App +3. Close the App after Approach Lamp OFF Request. + + +Expected Output: +1. Check whether the request will process or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Approach Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp ON Request from App +3. Perform a Remote Approach Lamp OFF Request from Vehicle at the same time + + +Expected Output: +1. Verify the Approach Lamp output + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Approach Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Approach Lamp OFF Request from App +3. Perform a Remote Approach Lamp ON Request from Vehicle at the same time + + +Expected Output: +1. Verify the Approach Lamp output + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Approach lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Approach Lamp is ON manually from vehicle +3. Perform Approach lamp ON command from App + +Expected Output: + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II. TCU send success response for approach lamp command to Cloud +III. Verify that Light Start event is exported to cloud +IV. Verify Approach lamp ON status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Approach lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Approach Lamp is OFF manually from vehicle +3. Perform Approach lamp ON command from App + +Expected Output: + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II. TCU send success response for approach lamp command to Cloud +III. Verify that Light Start event is exported to cloud +IV. Verify Approach lamp ON status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Approach lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform approach Lamp is ON from remote key +3. Perform Approach lamp ON command from App + +Expected Output: + I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II. TCU send success response for approach lamp command to Cloud +III. Verify that Light Start event is exported to cloud +IV. Verify Approach lamp ON status is updated in the Mobile App +V. Verify Position Lamp status is updated along with Approach Lamp status +VI . Verify Position Lamp remain in the previous state + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Mobile App request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App + + +Expected Output: +1. Check the time taken for turning ON the remote Position Lamp +2. Check the time taken for getting the Acknowledgement in the Mobile App + (Repeat the Test procedure 5 times and note the Time taken for processing the request) +3. Command execution time should be less than 10 sec and acknowledgement should be received in less than 20 sec (Measured from the time command is given). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Mobile App request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App + + +Expected Output: +1. Check the time taken for turning OFF the remote Position Lamp +2. Check the time taken for getting the Acknowledgement in the Mobile App + (Repeat the Test procedure 5 times and note the Time taken for processing the request) +3. Command execution time should be less than 10 sec and acknowledgement should be received in less than 20 sec (Measured from the time command is given). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Verify Remote command at the platform is timed out after 1 min +4. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Verify Remote command at the platform is timed out after 1 min +4. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in signal strength weak condition + +Pre-condition: +1) TCU with a functioning SIM +2) Signal strength between Cloud and Mobile App is Weak +3) TCU is Awake +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in signal strength weak condition + +Pre-condition: +1) TCU with a functioning SIM +2) Signal strength between Cloud and Mobile App is Weak +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App + + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App + + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network comes after requesting from the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App +3. Cloud to TCU Network become strengthen after the request + + +Expected Output: +1. Check whether the request will process or not. +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network comes after requesting from the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App +3. Cloud to TCU Network become strengthen after the request + + +Expected Output: +1. Check whether the request will process or not. +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App +3. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) + + +Expected Output: +1. Check Cloud shall discard the request after several attempt. +2. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App +3. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) + + +Expected Output: +1. Check Cloud shall discard the request after several attempt. +2. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the how the request is processed in case of TCU failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App +3. TCU to be disconnected to simulate TCU failure condition. + + +Expected Output: +1. Check the Mobile App and vehicle behavior when TCU fail to process the request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the how the request is processed in case of TCU failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App +3. TCU to be disconnected to simulate TCU failure condition. + + +Expected Output: +1. Check the Mobile App and vehicle behavior when TCU fail to process the request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior while Mobile App Crash Close during requesting + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App +3. Close the App after Position Lamp ON Request. + + +Expected Output: +1. Check whether the request will process or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior while Mobile App crash Close during requesting + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App +3. Close the App after Position Lamp OFF Request. + + +Expected Output: +1. Check whether the request will process or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp ON Request from App +3. Perform a Remote Position Lamp OFF ON Request from Vehicle at the same time + + +Expected Output: +1. Verify the Position Lamp output + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App +3. Perform a Remote Position Lamp ON Request from Vehicle at the same time + + +Expected Output: +1. Verify the Position Lamp output + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is already ON by manual switch + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App +3. Perform a Remote Position Lamp ON Request from Vehicle at the same time +4. Verify the Position Lamp output + +Expected Output: +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.TCU send success response for position lamp command to Cloud +IV. Verify that Light Start event is exported to cloud +V. Verify Position lamp ON status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Position Lamp is OFF by manual switch + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Position Lamp OFF Request from App +3. Perform a Remote Position Lamp ON Request from Vehicle at the same time +4. Verify the Position Lamp output + +Expected Output: +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II. Verify BCM is turning position lamp ON by seeing BCM_HU_IC_Trailer message on CAN +III.TCU send success response for position lamp command to Cloud +IV. Verify that Light Start event is exported to cloud +V. Verify Position lamp ON status is updated in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Mobile App request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App + + +Expected Output: +1. Check the time taken for turning ON the remote Hazard Lamp +2. Check the time taken for getting the Acknowledgement in the Mobile App + (Repeat the Test procedure 5 times and note the Time taken for processing the request) +3. Command execution time should be less than 10 sec and acknowledgement should be received in less than 20 sec (Measured from the time command is given). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the time for executing the Mobile App request + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App + + +Expected Output: +1. Check the time taken for turning OFF the remote Hazard Lamp +2. Check the time taken for getting the Acknowledgement in the Mobile App + (Repeat the Test procedure 5 times and note the Time taken for processing the request) +3. Command execution time should be less than 10 sec and acknowledgement should be received in less than 20 sec (Measured from the time command is given). + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Mobile App to Cloud +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in signal strength weak condition + +Pre-condition: +1) TCU with a functioning SIM +2) Signal strength between Cloud and Mobile App is Weak +3) TCU is Awake +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App behavior in signal strength weak condition + +Pre-condition: +1) TCU with a functioning SIM +2) Signal strength between Cloud and Mobile App is Weak +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App + + +Expected Output: +1. Check the Mobile App retry Mechanism (How many times Mobile App shall retry to process the request) +2. Check Mobile App shall discard the request after several attempt. +3. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App + + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt +3. Verify Remote command at the platform is timed out after 1 min. +4. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in No Network condition + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App + + +Expected Output: +1. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) +2. Check Cloud shall discard the request after several attempt. +3. Verify Remote command at the platform is timed out after 1 min +4. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network comes after requesting from the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App +3. Cloud to TCU Network become strengthen after the request + + +Expected Output: +1. Check whether the request will process or not. +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the system behavior when Network comes after requesting from the Mobile App + +Pre-condition: +1) TCU with a functioning SIM +2) No signal between Cloud to TCU +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App +3. Cloud to TCU Network become strengthen after the request + + +Expected Output: +1. Check whether the request will process or not. +2. Check any notifications are coming in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App +3. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) + + +Expected Output: +1. Check Cloud shall discard the request after several attempt. +2. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Cloud behavior in Cloud to TCU signal strength is weak + +Pre-condition: +1) TCU with a functioning SIM +2) Cloud to TCU signal strength is Weak +3) TCU is Awake +4) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App +3. Check the Cloud retry Mechanism (How many times Cloud shall retry to process the request) + + +Expected Output: +1. Check Cloud shall discard the request after several attempt. +2. Check any Notifications is displaying in the Mobile App, if the attempt fails + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the how the request is processed in case of TCU failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App +3. TCU to be disconnected to simulate TCU failure condition. + + + +Expected Output: +1. Check the Mobile App and vehicle behavior when TCU fail to process the request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the how the request is processed in case of TCU failure condition + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App +3. TCU to be disconnected to simulate TCU failure condition. + + +Expected Output: +1. Check the Mobile App and vehicle behavior when TCU fail to process the request + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior while Mobile App Crash Close during requesting + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App +3. Close the App after Hazard Lamp ON Request. + + +Expected Output: +1. Check whether the request will process or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior while Mobile App Crash Close during requesting + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App +3. Close the App after Hazard Lamp OFF Request. + + +Expected Output: +1. Check whether the request will process or not + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is OFF + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp ON Request from App +3. Perform a Remote Hazard Lamp OFF Request from Vehicle at the same time + + +Expected Output: +1. Verify the Hazard Lamp output + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is ON + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App +3. Perform a Remote Hazard Lamp ON Request from Vehicle at the same time + + +Expected Output: +1. Verify the Hazard Lamp output + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is ON by manual switch + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App + + +Expected Output: +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is turning Hazard lamp OFF and check the signal Hazardlampstate in BCM_RC5 +III. TCU send vehicle hazard lamp OFF request response Success to Cloud +IV. Verify that TCU export the Light Stop event to cloud platform +V. Verify Hazard lamp status is updated in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Test case for analyzing the Mobile App and Vehicle behavior when requesting from both Vehicle and Mobile App simultaneously + +Pre-condition: +1) TCU with a functioning SIM +2) TCU is Awake +3) Hazard Lamp is OFF by manual switch + +Test Procedure: +1. Vehicle is OFF +2. Perform a Remote Hazard Lamp OFF Request from App +3. Perform a Remote Hazard Lamp ON Request from App + +Expected Output: +I. Verify TCU publishes TelematicsEvent_RC4_Msg (1EF) message on CAN +II.Verify BCM is turning Hazard lamp ON and check the signal Hazardlampstate in BCM_RC5 +III. TCU send vehicle hazard lamp ON request response Success to Cloud +IV. Verify that TCU export the Light Start event to cloud platform +V. Verify Hazard lamp status is updated in the Mobile App + +======================================== + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Auto DTC check. + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. +4.Ensure that this is first Engine start of the day. + +Test Procedure: +1. Set PowerModeState = 8 (Run). +2. Ensure that Auto DTC check request is initiated. + +Expected Output: +1.Trace window shall display ReadDTCInformation (19 hex) command sent by TCM to all individual ECUs. +2. Trace window shall display Response from individual ECUs having list of active DTCs + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Auto DTC check. + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. +4.Ensure that this is first Engine start of the day. + +Test Procedure: +1. Set PowerModeState = 6 (Active). +2. Ensure that Auto DTC check request is initiated. + +Expected Output: +1.Trace window shall display ReadDTCInformation (19 hex) command sent by TCM to all individual ECUs. +2. Trace window shall display Response from individual ECUs having list of active DTCs + +======================================== + +======================================== + +Test Description: +1.Test case to verify TCM behavior for maual DTC check request initiated during Auto DTC check Sequence. + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. +4.Ensure that this is first Engine start of the day. + +Test Procedure: +1. Set PowerModeState = 8 (Run). +2. Ensure that Auto DTC check request is initiated. +3. Initiate the ReadDTcCommand from cloud portal. + +Expected Output: +TCM should discard the manual diagnostic request & Cloud should send the ReadDTcCommandResponse = Failed. + +======================================== + +======================================== + +Test Description: +1.Test case to verify TCM behavior for maual DTC check request initiated during Auto DTC check Sequence. + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. +4.Ensure that this is first Engine start of the day. + +Test Procedure: +1. Set PowerModeState = 6 (Active). +2. Ensure that Auto DTC check request is initiated. +3. Initiate the ReadDTcCommand from cloud portal. + +Expected Output: +TCM should discard the manual diagnostic request & Cloud should send the ReadDTcCommandResponse = Failed. + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Ignition ON power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 6(Ignition ON) +2.Initiate the ReadDTcCommand from cloud portal. + +Expected Output: +1.Verify Cloud send the ReadDTcCommandResponse = Success in server log. +2.Trace window shall display ReadDTCInformation (19 hex) command sent by TCM to all individual ECUs. +3. Trace window shall display Response from individual ECUs having list of active DTCs + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Ignition ON power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 8 (Run) +2.Initiate the ReadDTcCommand from cloud portal. + +Expected Output: +1.Verify Cloud send the ReadDTcCommandResponse = Success in server log. +2.Trace window shall display ReadDTCInformation (19 hex) command sent by TCM to all individual ECUs. +3. Trace window shall display Response from individual ECUs having list of active DTCs + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Run power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 8 (Run) +2.Initiate the Manual DTC check request + +Expected Output: +1.Verify Cloud send the ReadDTcCommandResponse = Success in server log. +2.Trace window shall display ReadDTCInformation (19 hex) command sent by TCM to all individual ECUs. +3. Trace window shall display Response from individual ECUs having list of active DTCs + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Run power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 6 (Active) +2.Initiate the Manual DTC check request + +Expected Output: +1.Verify Cloud send the ReadDTcCommandResponse = Success in server log. +2.Trace window shall display ReadDTCInformation (19 hex) command sent by TCM to all individual ECUs. +3. Trace window shall display Response from individual ECUs having list of active DTCs + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Awake power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 1 (Awake) +2.Initiate the Manual DTC check request + +Expected Output: +Cloud shall discard the command and share feedback to Mobile App or Service portal via GSM/GPRS communication. + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Accessory power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 4 (Accessory) +2.Initiate the Manual DTC check request + +Expected Output: +Cloud shall discard the command and share feedback to Mobile App or Service portal via GSM/GPRS communication. + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Crank power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 9 (Crank). +2.Initiate the Manual DTC check request. + +Expected Output: +Cloud shall discard the command and share feedback to Mobile App or Service portal via GSM/GPRS communication. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour on receiving FetchDTcSnapshotCommand request from service portal + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 6(Ignition ON) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +1.Cloud platform shall display FetchDTcSnapshotCommandResponce = Success +2. Trace shall display reportDTCSnapshotRecordByDTCNumber request sent by TCM to targeted ECU + +======================================== + +======================================== + +Test Description: +Test case to verify DTC snapshot data when diagnsotic req for DTC snapshot is sent from service portal + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. +4. TCM sent reportDTCSnapshotRecordByDTCNumber request to targeted ECUs + +Test Procedure: +1. Set PowerModeState = 6(Ignition ON) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +1. Trace shall display response from targeted ECUs for DTC snapshot data +2. Server log shall have DTC snapshot data shared by TCM to platform +3. Server log shall have FetchDTcSnapshotCommandResponce with status as Success sent by Cloud. +4. Web portal shall display DTC snapshot data in readable format. + +======================================== + +======================================== + +Test Description: +Test case to verify cloud behaviour on receiving FetchDTcSnapshotCommand request from service portal in Awake power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 1 (Awake) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +Cloud platform shall display FetchDTcSnapshotCommandResponce = Failed + + + + +======================================== + +======================================== + +Test Description: +Test case to verify cloud behaviour on receiving FetchDTcSnapshotCommand request from service portal in Accessory power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 4 (Accessory) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +Cloud platform shall display FetchDTcSnapshotCommandResponce = Failed + + + + +======================================== + +======================================== + +Test Description: +Test case to verify cloud behaviour on receiving FetchDTcSnapshotCommand request from service portal in Crank power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 9 (crank) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +Cloud platform shall display FetchDTcSnapshotCommandResponce = Failed + + + + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Auto DTC check. + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. +4.Ensure that this is first Engine start of the day. + +Test Procedure: +1. Set PowerModeState = 8 (Run). +2. Ensure that Auto DTC check request is initiated. + +Expected Output: +1.Trace window shall display ReadDTCInformation (19 hex) command sent by TCM to all individual ECUs. +2. Trace window shall display Response from individual ECUs having list of active DTCs + +======================================== + +======================================== + +Test Description: +1.Test case to verify TCM behavior for maual DTC check request initiated during Auto DTC check Sequence. + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. +4.Ensure that this is first Engine start of the day. + +Test Procedure: +1. Set PowerModeState = 8 (Run). +2. Ensure that Auto DTC check request is initiated. +3. Initiate the Manual DTC check request. + +Expected Output: +TCM should discard the manual diagnostic signal & Cloud should send the ReadDTcCommandResponse = Failed +App shall display "Command failed" + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Ignition ON power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 6(Ignition ON) +2.Initiate the Manual DTC check request. + +Expected Output: +1.Verify Cloud send the ReadDTcCommandResponse = Success in server log. +2.Trace window shall display ReadDTCInformation (19 hex) command sent by TCM to all individual ECUs. +3. Trace window shall display Response from individual ECUs having list of active DTCs + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Run power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 8 (Run) +2.Initiate the Manual DTC check request + +Expected Output: +1.Verify Cloud send the ReadDTcCommandResponse = Success in server log. +2.Trace window shall display ReadDTCInformation (19 hex) command sent by TCM to all individual ECUs. +3. Trace window shall display Response from individual ECUs having list of active DTCs + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Awake power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 1 (Awake) +2.Initiate the Manual DTC check request + +Expected Output: +Cloud shall discard the command and share feedback to Mobile App or Service portal via GSM/GPRS communication. + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Accessory power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 4 (Accessory) +2.Initiate the Manual DTC check request + +Expected Output: +Cloud shall discard the command and share feedback to Mobile App or Service portal via GSM/GPRS communication. + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Crank power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 9 (Crank). +2.Initiate the Manual DTC check request + +Expected Output: +Cloud shall discard the command and share feedback to Mobile App or Service portal via GSM/GPRS communication. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour on receiving FetchDTcSnapshotCommand request from service portal + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 6(Ignition ON) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +1.Cloud platform shall display FetchDTcSnapshotCommandResponce = Success +2. Trace shall display reportDTCSnapshotRecordByDTCNumber request sent by TCM to targeted ECU + +======================================== + +======================================== + +Test Description: +Test case to verify DTC snapshot data when diagnsotic req for DTC snapshot is sent from service portal + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. +4. TCM sent reportDTCSnapshotRecordByDTCNumber request to targeted ECUs + +Test Procedure: +1. Set PowerModeState = 6(Ignition ON) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +1. Trace shall display response from targeted ECUs for DTC snapshot data +2. Server log shall have DTC snapshot data shared by TCM to platform +3. Server log shall have FetchDTcSnapshotCommandResponce with status as Success sent by Cloud. +4. Web portal shall display DTC snapshot data in readable format. + +======================================== + +======================================== + +Test Description: +Test case to verify cloud behaviour on receiving FetchDTcSnapshotCommand request from service portal in Awake power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 1 (Awake) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +1.Cloud platform shall display FetchDTcSnapshotCommandResponce = Failed + + + + +======================================== + +======================================== + +Test Description: +Test case to verify cloud behaviour on receiving FetchDTcSnapshotCommand request from service portal in Accessory power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 4 (Accessory) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +1.Cloud platform shall display FetchDTcSnapshotCommandResponce = Failed + + + + +======================================== + +======================================== + +Test Description: +Test case to verify cloud behaviour on receiving FetchDTcSnapshotCommand request from service portal in Crank power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 9 (crank) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +1.Cloud platform shall display FetchDTcSnapshotCommandResponce = Failed + + + + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Auto DTC check. + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. +4.Ensure that this is first Engine start of the day. + +Test Procedure: +1. Set PowerModeState = 8 (Run). +2. Ensure that Auto DTC check request is initiated. + +Expected Output: +1.Trace window shall display ReadDTCInformation (19 hex) command sent by TCM to all individual ECUs. +2. Trace window shall display Response from individual ECUs having list of active DTCs + +======================================== + +======================================== + +Test Description: +1.Test case to verify TCM behavior for maual DTC check request initiated during Auto DTC check Sequence. + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. +4.Ensure that this is first Engine start of the day. + +Test Procedure: +1. Set PowerModeState = 8 (Run). +2. Ensure that Auto DTC check request is initiated. +3. Initiate the Manual DTC check request. + +Expected Output: +TCM should discard the manual diagnostic signal & Cloud should send the ReadDTcCommandResponse = Failed +App shall display "Command failed" + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Ignition ON power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 6(Ignition ON) +2.Initiate the Manual DTC check request. + +Expected Output: +1.Verify Cloud send the ReadDTcCommandResponse = Success in server log. +2.Trace window shall display ReadDTCInformation (19 hex) command sent by TCM to all individual ECUs. +3. Trace window shall display Response from individual ECUs having list of active DTCs + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Run power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 8 (Run) +2.Initiate the Manual DTC check request + +Expected Output: +1.Verify Cloud send the ReadDTcCommandResponse = Success in server log. +2.Trace window shall display ReadDTCInformation (19 hex) command sent by TCM to all individual ECUs. +3. Trace window shall display Response from individual ECUs having list of active DTCs + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Awake power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 1 (Awake) +2.Initiate the Manual DTC check request + +Expected Output: +Cloud shall discard the command and share feedback to Mobile App or Service portal via GSM/GPRS communication. + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Accessory power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 4 (Accessory) +2.Initiate the Manual DTC check request + +Expected Output: +Cloud shall discard the command and share feedback to Mobile App or Service portal via GSM/GPRS communication. + +======================================== + +======================================== + +Test Description: +Test case to verify DTC request and response in case of Manual DTC check in Crank power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 9 (Crank). +2.Initiate the Manual DTC check request + +Expected Output: +Cloud shall discard the command and share feedback to Mobile App or Service portal via GSM/GPRS communication. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behaviour on receiving FetchDTcSnapshotCommand request from service portal + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 6(Ignition ON) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +1.Cloud platform shall display FetchDTcSnapshotCommandResponce = Success +2. Trace shall display reportDTCSnapshotRecordByDTCNumber request sent by TCM to targeted ECU + +======================================== + +======================================== + +Test Description: +Test case to verify DTC snapshot data when diagnsotic req for DTC snapshot is sent from service portal + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. +4. TCM sent reportDTCSnapshotRecordByDTCNumber request to targeted ECUs + +Test Procedure: +1. Set PowerModeState = 6(Ignition ON) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +1. Trace shall display response from targeted ECUs for DTC snapshot data +2. Server log shall have DTC snapshot data shared by TCM to platform +3. Server log shall have FetchDTcSnapshotCommandResponce with status as Success sent by Cloud. +4. Web portal shall display DTC snapshot data in readable format. + +======================================== + +======================================== + +Test Description: +Test case to verify cloud behaviour on receiving FetchDTcSnapshotCommand request from service portal in Awake power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 1 (Awake) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +1.Cloud platform shall display FetchDTcSnapshotCommandResponce = Failed + + + + +======================================== + +======================================== + +Test Description: +Test case to verify cloud behaviour on receiving FetchDTcSnapshotCommand request from service portal in Accessory power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 4 (Accessory) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +1.Cloud platform shall display FetchDTcSnapshotCommandResponce = Failed + + + + +======================================== + +======================================== + +Test Description: +Test case to verify cloud behaviour on receiving FetchDTcSnapshotCommand request from service portal in Crank power mode + +Pre-condition: +1. TCM with a functioning SIM +2. TCM SIM card have sufficient network strength +3. User has subscribed to the feature and subscription is active. + +Test Procedure: +1. Set PowerModeState = 9 (crank) +2.Send remote vehicle diagnostic request for dtc snapshot from service portal. + +Expected Output: +1.Cloud platform shall display FetchDTcSnapshotCommandResponce = Failed + + + + +======================================== + +======================================== + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Awake +PowerModeState = 1 +2 Simulate following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Accessory Delay +PowerModeState = 5 +2 Simulate following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Accessory +PowerModeState = 4 +2 Simulate following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Active +PowerModeState = 6 +2 Simulate following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Crank +PowerModeState = 9 +2 Simulate following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Run +PowerModeState = 8 +2 Simulate following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Awake +PowerModeState = 1 +2. Simulate following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Accessory Delay +PowerModeState = 5 +2. Simulate following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Accessory +PowerModeState = 4 +2. Simulate following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Active +PowerModeState = 6 +2. Simulate following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Run +PowerModeState = 8 +2. Simulate following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Crank +PowerModeState = 9 +2. Simulate following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Awake +PowerModeState = 1 +2 Read following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Accessory Delay +PowerModeState = 5 +2 Read following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Accessory +PowerModeState = 4 +2 Read following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Active +PowerModeState = 6 +2 Simulate following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Crank +PowerModeState = 9 +2 Simulate following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Run +PowerModeState = 8 +2 Simulate following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Awake +PowerModeState = 1 +2. Read following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Accessory Delay +PowerModeState = 5 +2. Read following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Accessory +PowerModeState = 4 +2. Read following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Active +PowerModeState = 6 +2. Read following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Run +PowerModeState = 8 +2. Read following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Crank +PowerModeState = 9 +2. Read following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Awake +PowerModeState = 1 +2 Read following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Accessory Delay +PowerModeState = 5 +2 Read following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Accessory +PowerModeState = 4 +2 Read following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Active +PowerModeState = 6 +2 Simulate following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Crank +PowerModeState = 9 +2 Simulate following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1 Set the Power Mode as Run +PowerModeState = 8 +2 Simulate following Messages on Vehicle CAN. +CCM1 +CCM_HU_Info +VCU_8RC +TPMS1 +TPMS2 +TPMS3 +TPMS4 +IPC_RC1 +HU_CCM_Event_Info +AMT2 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Vehicle CAN messages associated with RAW CAN Data to the cloud in every Par_exportVehCANDataTime= 10 sec +b. Verify that TCM records Vehicle CAN messages associated with RAW CAN Data at every Par_recordVehCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Awake +PowerModeState = 1 +2. Read following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Accessory Delay +PowerModeState = 5 +2. Read following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Accessory +PowerModeState = 4 +2. Read following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Active +PowerModeState = 6 +2. Read following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Run +PowerModeState = 8 +2. Read following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +Test Description: +1. Test case to verify that TCM records and exports vehicle CAN messages associated to RAW CAN Data in Awake power mode + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in awake State + +Test Procedure: +1. Set the Power Mode as Crank +PowerModeState = 9 +2. Read following Messages on Diagnostics CAN. +VCU20 +VCU21 +VCU22 +VCU23 +VCU24 +VCU25 +VCU26 +VCU27 +VCU28 +VCU29 +VCU30 +VCU31 +VCU32 +VCU33 +VCU34 +VCU35 +VCU36 +VCU37 +VCU38 +VCU39 +VCU40 +VCU41 +VCU42 +VCU43 +VCU44 +VCU45 +VCU46 +VCU47 +VCU48 +VCU49 + +Expected Output: +1. Verify the following Parameter is displayed on Cloud: + Raw CAN DATA Record Element - +a. Verify that TCM exports Diagnostic CAN messages associated with RAW CAN Data to the cloud in every Par_exportDiagCANDataTime= 3 sec +b. Verify that TCM records Diagnostic CAN messages associated with RAW CAN Data at every Par_recordDiagCANDataTime = 1000 msec + +Note : Cloud platform shall decode the raw CAN data received from TCM in readable format as per DBC + +======================================== + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Electric power steering status in auto DTC check + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Login to the mobile application +2. Run the vehicle daignosis +3. Check the Electric power sterring status data showing on daignostic report. + +Expected Output: + 1. Verify the Electric power sterring status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the air bag status in auto DTC check + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Login to the mobile application +2. Run the vehicle daignosis +3. Check the air bag status data showing on daignostic report. + +Expected Output: +1. Verify the air bag status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Break system status in auto DTC check + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Login to the mobile application +2. Run the vehicle daignosis +3. Check the Break system status status data showing on daignostic report. + +Expected Output: +Verify the Break system status status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Power train status in auto DTC check + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Login to the mobile application +2. Run the vehicle daignosis +3. Check the Power train status status data showing on daignostic report. + +Expected Output: +verify the Power train status status data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Service due KM in auto DTC check + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Login to the mobile application +2. Run the vehicle daignosis +3. Check the Service due KM data showing on daignostic report. + +Expected Output: +Verify the Service due KM data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Service due days in auto DTC check + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Login to the mobile application +2. Run the vehicle daignosis +3. Check the Service due days data showing on daignostic report. + +Expected Output: +Verify the Service due days data showing on daignostic report. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Daignostic report in auto/manual DTC check + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Login to the mobile application +2. Run the vehicle daignosis +3. Check the Daignostic report mentioned with fault if available + +Expected Output: +Verify the Daignostic report mentioned with fault if available + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Electric power steering status in auto DTC check + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Login to the mobile application +2. Run the vehicle daignosis +3. Check the Electric power sterring status data showing on daignostic report. + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the air bag status in auto DTC check + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Login to the mobile application +2. Run the vehicle daignosis +3. Check the air bag status data showing on daignostic report. + +======================================== + +Test Description: +1) TCU is in the authorized state �� +2)This test case to verify the Break system status in auto DTC check + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Login to the mobile application +2. Run the vehicle daignosis +3. Check the Break system status status data showing on daignostic report. + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Power train status in auto DTC check + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Login to the mobile application +2. Run the vehicle daignosis +3. Check the Power train status status data showing on daignostic report. + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Service due KM in auto DTC check + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Login to the mobile application +2. Run the vehicle daignosis +3. Check the Service due KM data showing on daignostic report. + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Service due days in auto DTC check + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Login to the mobile application +2. Run the vehicle daignosis +3. Check the Service due days data showing on daignostic report. + +======================================== + +Test Description: +1) TCU is in the authorized state   +2)This test case to verify the Daignostic report in auto/manual DTC check + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is awake +4) Client has a subscription to a connected car app. + +Test Procedure: +1. Login to the mobile application +2. Run the vehicle daignosis +3. Check the Daignostic report mnetioned with fault if available + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 0 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCu = 1 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCu = 2 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCu = 3 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 4 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 5 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 6 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 7 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 8 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 8 + CurGearTCuStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 8 + CurGearTCuStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 0 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCu = 1 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCu = 2 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCu = 3 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 4 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 5 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 6 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 7 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCU = 8 + CurGearTCUStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCU = 8 + CurGearTCUStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCU = 8 + CurGearTCUStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearDct = 1 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearDct = 2 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearDct = 3 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 4 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 5 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 6 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 7 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 8 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearDct = 1 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearDct = 2 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearDct = 3 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 4 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 5 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 6 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 7 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 8 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCUAT = 1 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCUAT = 2 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCUAT = 3 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 4 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 5 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 6 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 7 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0XE + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0XE + CurrGearTCUATStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0XE + CurrGearTCUATStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCUAT = 1 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCUAT = 2 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCUAT = 3 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 4 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 5 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 6 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCuAT = 7 + CurrGearTCUMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCuAT = 0XE + CurrGearTCuATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCuAT = 0XE + CurrGearTCuATStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCuAT = 0XE + CurrGearTCuATStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 0 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCM = 1 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCM = 2 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCM = 3 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 4 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 5 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 6 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 7 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 8 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 8 + CurGearTCMStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 8 + CurGearTCMStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 0 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCM = 1 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCM = 2 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCM = 3 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 4 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 5 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 6 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 7 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 8 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 8 + CurGearTCMStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 8 + CurGearTCMStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearDct = 1 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearDct = 2 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearDct = 3 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 4 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 5 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 6 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 7 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 8 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearDct = 1 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearDct = 2 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearDct = 3 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 4 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 5 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 6 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 7 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 8 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCMAT = 1 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCMAT = 2 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCMAT = 3 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 4 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 5 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 6 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 7 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0XE + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0XE + CurrGearTCMATStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0XE + CurrGearTCMATStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCMAT = 1 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCMAT = 2 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCMAT = 3 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 4 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 5 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 6 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 7 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0XE + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0XE + CurrGearTCMATStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0XE + CurrGearTCMATStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 1 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 1 +HighBeamLampOnFlag with value as 0 + +II. Verify LowBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 0 +HighBeamLampOnFlag with value as 0 + +II. Verify LowBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 1 + LowBeamTellTaleStatus = 3 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 4 +HighBeamLampOnFlag with value as 0 + +II. Verify LowBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 1 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 0 +HighBeamLampOnFlag with value as 1 + +II. Verify HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 0 +HighBeamLampOnFlag with value as 0 + +II. Verify HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 1 + HighBeamTelltaleStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 0 +HighBeamLampOnFlag with value as 4 + +II. Verify HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 0 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 14 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurrGearEms = 1 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 1 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 +ClutchState with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurrGearEms = 2 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 2 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 +ClutchState with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurrGearEms = 3 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 3 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 4 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 5 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 6 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 8 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 2 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 0 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 14 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurrGearEms = 1 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 1 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 +ClutchState with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurrGearEms = 2 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 2 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 +ClutchState with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurrGearEms = 3 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 3 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 4 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 5 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 6 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 8 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 2 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 1 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 3 +HighBeamLampOnFlag with value as 3 + +II. Verify LowBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 3 +HighBeamLampOnFlag with value as 3 + +II. Verify LowBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 1 + LowBeamTellTaleStatus = 3 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 3 +HighBeamLampOnFlag with value as 3 + +II. Verify LowBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 1 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 3 +HighBeamLampOnFlag with value as 3 + +II. Verify HighBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 3 +HighBeamLampOnFlag with value as 3 + +II. Verify HighBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 1 + HighBeamTelltaleStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 3 +HighBeamLampOnFlag with value as 3 + +II. Verify HighBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 0 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 14 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurrGearEms = 1 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 1 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 +ClutchState with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurrGearEms = 2 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 2 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 +ClutchState with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurrGearEms = 3 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 3 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 4 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 5 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 6 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 8 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 2 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 0 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 14 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurrGearEms = 1 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 1 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 +ClutchState with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurrGearEms = 2 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 2 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 +ClutchState with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurrGearEms = 3 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 3 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Read below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 4 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 5 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 6 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 8 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 2 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform. + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply + + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform + +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2.Horn press over hardwired line connected to horn relay. +2.Connect pin 27 of TCM to 12 V supply +3. Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 at same time stamp +II. Cloud will share the Generated Driver Score on Connected car mobile App. +III. Cloud will share Generated Horn life status to Service portal. +IV. If IGN is OFF then Cloud should ignore the Horn press signal. + + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Crank + PowerModeState = 09 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply +4.Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply +4.Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply + + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform + +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2.Horn press over hardwired line connected to horn relay. +2.Connect pin 27 of TCM to 12 V supply +3. Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 at same time stamp +II. Cloud will share the Generated Driver Score on Connected car mobile App. +III. Cloud will share Generated Horn life status to Service portal. +IV. If IGN is OFF then Cloud should ignore the Horn press signal. + + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Crank + PowerModeState = 09 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply +4.Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply +4.Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 0 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCu = 1 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCu = 2 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCu = 3 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 4 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 5 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 6 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 7 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 8 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 8 + CurGearTCuStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 8 + CurGearTCuStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 0 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCu = 1 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCu = 2 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCu = 3 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 4 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 5 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 6 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 7 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCU = 8 + CurGearTCUStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCU = 8 + CurGearTCUStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCU = 8 + CurGearTCUStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearDct = 1 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearDct = 2 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearDct = 3 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 4 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 5 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 6 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 7 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 8 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearDct = 1 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearDct = 2 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearDct = 3 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 4 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 5 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 6 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 7 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 8 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCUAT = 1 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCUAT = 2 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCUAT = 3 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 4 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 5 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 6 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 7 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0XE + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0XE + CurrGearTCUATStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0XE + CurrGearTCUATStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCUAT = 1 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCUAT = 2 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCUAT = 3 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 4 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 5 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 6 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCuAT = 7 + CurrGearTCUMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCuAT = 0XE + CurrGearTCuATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCuAT = 0XE + CurrGearTCuATStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCuAT = 0XE + CurrGearTCuATStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 0 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 1 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 1 +HighBeamLampOnFlag with value as 0 + +II. Verify LowBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 0 +HighBeamLampOnFlag with value as 0 + +II. Verify LowBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 1 + LowBeamTellTaleStatus = 3 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 4 +HighBeamLampOnFlag with value as 0 + +II. Verify LowBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 1 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 0 +HighBeamLampOnFlag with value as 1 + +II. Verify HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 0 +HighBeamLampOnFlag with value as 0 + +II. Verify HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 1 + HighBeamTelltaleStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 0 +HighBeamLampOnFlag with value as 4 + +II. Verify HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 0 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 14 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurrGearEms = 1 + CurrGearEmsStatus = 0 + ClutPressStateEMS=0 + ClutPressStateEMSNew = 2 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 +ClutchState with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurrGearEms = 2 + CurrGearEmsStatus = 0 + ClutPressStateEMS=1 + ClutPressStateEMSNew = 2 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 +ClutchState with value as =1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurrGearEms = 3 + CurrGearEmsStatus = 0 + ClutPressStateEMS=0 + ClutPressStateEMSNew = 3 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 4 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 5 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 6 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 8 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 2 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 0 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 14 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurrGearEms = 1 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 1 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 +ClutchState with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurrGearEms = 2 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 2 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 +ClutchState with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurrGearEms = 3 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 3 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 4 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 5 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 6 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 8 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 2 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 0 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 14 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurrGearEms = 1 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 1 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 +ClutchState with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurrGearEms = 2 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 2 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 +ClutchState with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurrGearEms = 3 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 3 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 4 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 5 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 6 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 8 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 2 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 0 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 14 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurrGearEms = 1 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 1 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 +ClutchState with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurrGearEms = 2 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 2 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 +ClutchState with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurrGearEms = 3 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 3 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 4 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 5 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 6 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 8 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 2 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform. + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply + + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform + +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2.Horn press over hardwired line connected to horn relay. +2.Connect pin 27 of TCM to 12 V supply +3. Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 at same time stamp +II. Cloud will share the Generated Driver Score on Connected car mobile App. +III. Cloud will share Generated Horn life status to Service portal. +IV. If IGN is OFF then Cloud should ignore the Horn press signal. + + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Crank + PowerModeState = 09 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply +4.Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply +4.Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform. + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply + + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform + +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2.Horn press over hardwired line connected to horn relay. +2.Connect pin 27 of TCM to 12 V supply +3. Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 at same time stamp +II. Cloud will share the Generated Driver Score on Connected car mobile App. +III. Cloud will share Generated Horn life status to Service portal. +IV. If IGN is OFF then Cloud should ignore the Horn press signal. + + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Crank + PowerModeState = 09 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply +4.Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply +4.Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply + + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform + +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2.Horn press over hardwired line connected to horn relay. +2.Connect pin 27 of TCM to 12 V supply +3. Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 at same time stamp +II. Cloud will share the Generated Driver Score on Connected car mobile App. +III. Cloud will share Generated Horn life status to Service portal. +IV. If IGN is OFF then Cloud should ignore the Horn press signal. + + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Crank + PowerModeState = 09 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply +4.Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply +4.Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 0 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCu = 1 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCu = 2 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCu = 3 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 4 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 5 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 6 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 7 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 8 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 8 + CurGearTCuStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 8 + CurGearTCuStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 0 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCu = 1 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCu = 2 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCu = 3 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 4 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 5 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 6 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCu = 7 + CurGearTCuStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCU = 8 + CurGearTCUStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCU = 8 + CurGearTCUStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCU = 8 + CurGearTCUStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearDct = 1 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearDct = 2 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearDct = 3 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 4 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 5 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 6 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 7 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 8 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearDct = 1 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearDct = 2 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearDct = 3 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 4 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 5 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 6 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 7 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 8 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCUAT = 1 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCUAT = 2 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCUAT = 3 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 4 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 5 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 6 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 7 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0XE + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0XE + CurrGearTCUATStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0XE + CurrGearTCUATStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 0 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCUAT = 1 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCUAT = 2 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCUAT = 3 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 4 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 5 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCUAT = 6 + CurrGearTCUATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCuAT = 7 + CurrGearTCUMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCuAT = 0XE + CurrGearTCuATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCuAT = 0XE + CurrGearTCuATStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCuAT = 0XE + CurrGearTCuATStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 0 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCM = 1 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCM = 2 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCM = 3 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 4 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 5 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 6 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 7 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 8 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 8 + CurGearTCMStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 8 + CurGearTCMStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 0 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCM = 1 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCM = 2 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCM = 3 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 4 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 5 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 6 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 7 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 8 + CurGearTCMStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 8 + CurGearTCMStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AMT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCM = 8 + CurGearTCMStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearDct = 1 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearDct = 2 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearDct = 3 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 4 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 5 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 6 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 7 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 8 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearDct = 1 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearDct = 2 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearDct = 3 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 4 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 5 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 6 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 7 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 8 + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 8 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for DCT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearDct = 0XE + CurGearDctStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCMAT = 1 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCMAT = 2 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCMAT = 3 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 4 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 5 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 6 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 7 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0XE + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0XE + CurrGearTCMATStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0XE + CurrGearTCMATStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurGearTCMAT = 1 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurGearTCMAT = 2 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurGearTCMAT = 3 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 4 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 5 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 6 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 7 + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0XE + CurrGearTCMATStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0XE + CurrGearTCMATStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for AT vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurGearTCMAT = 0XE + CurrGearTCMATStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 1 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 1 +HighBeamLampOnFlag with value as 0 + +II. Verify LowBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 0 +HighBeamLampOnFlag with value as 0 + +II. Verify LowBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 1 + LowBeamTellTaleStatus = 3 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 4 +HighBeamLampOnFlag with value as 0 + +II. Verify LowBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 1 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 0 +HighBeamLampOnFlag with value as 1 + +II. Verify HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 0 +HighBeamLampOnFlag with value as 0 + +II. Verify HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 1 + HighBeamTelltaleStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 0 +HighBeamLampOnFlag with value as 4 + +II. Verify HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 0 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 14 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurrGearEms = 1 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 1 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 +ClutchState with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurrGearEms = 2 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 2 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 +ClutchState with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurrGearEms = 3 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 3 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 4 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 5 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 6 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 8 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 2 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 0 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 14 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurrGearEms = 1 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 1 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 +ClutchState with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurrGearEms = 2 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 2 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 +ClutchState with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurrGearEms = 3 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 3 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 4 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 5 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 6 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 8 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 2 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 1 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 3 +HighBeamLampOnFlag with value as 3 + +II. Verify LowBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 3 +HighBeamLampOnFlag with value as 3 + +II. Verify LowBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor LowBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 1 + LowBeamTellTaleStatus = 3 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 3 +HighBeamLampOnFlag with value as 3 + +II. Verify LowBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 1 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 3 +HighBeamLampOnFlag with value as 3 + +II. Verify HighBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 0 + HighBeamTelltaleStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 3 +HighBeamLampOnFlag with value as 3 + +II. Verify HighBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor HighBeamTelltale signal and send to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2. Set below CAN signals from BCM: + LowBeamTelltale = 0 + LowBeamTellTaleStatus = 0 + HighBeamTelltale = 1 + HighBeamTelltaleStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: +LowBeamLampOnFlag with value as 3 +HighBeamLampOnFlag with value as 3 + +II. Verify HighBeamLampOnFlag & HighBeamLampOnFlag on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 0 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 14 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurrGearEms = 1 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 1 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 +ClutchState with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurrGearEms = 2 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 2 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 +ClutchState with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurrGearEms = 3 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 3 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 4 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 5 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 6 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 8 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 2 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 0 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 14 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 0 + CurrGearEms = 1 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 1 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 1 +Gearinfo with value as 0 +ClutchState with value as 1 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 2 + CurrGearEms = 2 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 2 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 1 +ClutchState with value as 2 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 1 + BrkPressStatus = 3 + CurrGearEms = 3 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 3 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 4 +Gearinfo with value as 2 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 4 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 2 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 3 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 5 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 3 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 4 +ClutchState with value as 4 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 6 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 5 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 6 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 8 + CurrGearEmsStatus = 0 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 7 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 2 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall monitor brake, gear & clurch signal and send to cloud platform for Manual transmission vehicle + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2. Set below CAN signals : + BrkPressState = 0 + BrkPressStatus = 0 + CurrGearEms = 7 + CurrGearEmsStatus = 3 + ClutPressStateEMS/ ClutPressStateEMSNew = 0 + ClutPressEMSStatus = 0 + +Expected Output: +I. All signals shall pass to platform by GSM/GPRS. Verify the Following signals in Cloud: + +BrkPressState with value as 0 +Gearinfo with value as 16 +ClutchState with value as 0 + +II. Verify Gearinfo on mobile app. + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform. + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply + + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform + +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2.Horn press over hardwired line connected to horn relay. +2.Connect pin 27 of TCM to 12 V supply +3. Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 at same time stamp +II. Cloud will share the Generated Driver Score on Connected car mobile App. +III. Cloud will share Generated Horn life status to Service portal. +IV. If IGN is OFF then Cloud should ignore the Horn press signal. + + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Crank + PowerModeState = 09 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply +4.Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply +4.Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Ignition ON + PowerModeState = 06 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply + + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform + +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Awake + PowerModeState = 01 +2.Horn press over hardwired line connected to horn relay. +2.Connect pin 27 of TCM to 12 V supply +3. Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 at same time stamp +II. Cloud will share the Generated Driver Score on Connected car mobile App. +III. Cloud will share Generated Horn life status to Service portal. +IV. If IGN is OFF then Cloud should ignore the Horn press signal. + + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Crank + PowerModeState = 09 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply +4.Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1. Testcase to analyze TCM properly respond to the data for car telemetry feature sent from other ECUs +2. TCM shall export HornState to cloud platform + +Pre-condition: +1) TCM is in the authorized state. +2) TCM SIM card have sufficient network strength. + + +Test Procedure: +1. Set the Power Mode as Run + PowerModeState = 08 +2.Horn press over hardwired line connected to horn relay +3.Connect pin 27 of TCM to 12 V supply +4.Check the cloud receives Horn Press=1 from TCM + +Expected Output: +I. Check Horn is press and HornState=1 +II. TCM export HornState=1 to cloud platform + +If Horn is not press then HornState=0 +I. TCM export export HornState=0 to cloud platform +In other cases +I. TCM export HornState=4 to cloud platform + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Communication between VCU, BCM, TCU, IPC, FATC and TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) TCU sends +RemoteAcCmdStatus=1 (Don't Care) +OR +RemoteAcCmdStatus=2 (Signal is Implausible) OR +RemoteAcCmdStatus=3 (Signal not available) + +Expected Output: +1)VCU or BCM or TCU or IPC or FATC on receiving RemoteAcCmdStatus = 1 (OR) 2 (OR) 3 from TCU, shall discard that signal. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Communication between VCU, BCM, TCU, IPC, FATC and TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) TCU sends +RemoteAcTempSetStatus=2 (Signal is Implausible) + OR +RemoteAcTempSetStatus=3 (Signal not available) + +Expected Output: +1)VCU or BCM or TCU or IPC or FATC +RemoteAcTempSetStatus= 2 (OR) 3 from TCU, shall discard that signal. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Communication between VCU, BCM, TCU, IPC, FATC and TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) User turn ON AC via mobile app and select timer for 5 min +(Defualt temp value is 25 degree in App) + +Expected Output: +1)Verify TCU_NMPDU publishes on Vehicle CAN +2) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=1. +3) Verify FATC published CCM_RC1 with AcReqNew=1 on CAN and turn on the blower. +4) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=2 and turn on the compressor. +5) TCU sends success response for Remote AC command to Cloud. +6) Verify that TCU export AC ON event to cloud +6) Verify in TCU logs that TCU starts timer of 5 min +7) Verify that after expiry of that timer TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0 and AC should be turned OFF. +8) Verify that TCU export AC OFF event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Communication between VCU, BCM, TCU, IPC, FATC and TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) Set Powermode value as = 0 +2) User sends AC ON command from mobile app +3) TCU sends +RemoteAcTempSetStatus=2 (Signal is Implausible) + OR +RemoteAcTempSetStatus=3 (Signal not available) + +Expected Output: +1)FATC should discard AC on request from TCU. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Mobile app is sending Turn On AC request to Cloud. + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) Send unlockvehiclecommand from cloud +3) TCU is not receiving StartAcCommand from cloud + +Expected Output: +TCU should publish don't care condition of status signal RemoteAcCmdStatus=1 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Mobile app is sending Turn On AC request to Cloud + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + +Test Procedure: +1) IGN is ON (Power mode state as = 6) +2) Send unlockvehiclecommand from cloud +3) Platform sends StartAcCommand to TCU + +Expected Output: +TCU should publish don't care condition of status signal RemoteAcCmdStatus=1 because IGN is set ON. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives StartAcCommand information from Cloud + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) TCU receives valid StartAcCommand from cloud + + + +Expected Output: +1) Verify RemoteAcCmdStatus=0 over CAN +2) verify RemoteAcCmd=1 +2) TCU shall not publish SNA or Implausible unless specifically mentioned in the requirements. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. + + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + +Test Procedure: +1) TCU is publishing TCU_NMPDU over CAN + +Expected Output: +1) TCU, IPC, FATC, VCU and BCM shall remain awake + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving HvBattPackVol information + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) Set HvBattPackVol = 8 volts (anything below 9 ) +3)User sends Turn ON AC request from mobile App + +Expected Output: +1) Verify the following signal over CAN: + RemoteAcCmd=0 (FATC shall not execute the remote AC ON/OFF command when battery voltage is below 9) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving HvBattPackVol information + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) Set HvBattPackVol=17volts (anything above 17 ) +2)User sends Turn ON AC request from mobile App + +Expected Output: +1) Verify the following signal over CAN: + RemoteAcCmd=0 (FATC shall not execute the remote AC ON/OFF command when battery voltage is above 16) + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving HvBattPackVol information + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) Set HvBattPackVol=13volts (between 9 to 16) +3)User sends Turn ON AC request from mobile App + +Expected Output: +1) Verify the following signal over CAN: +RemoteAcCmd=1 +(AC should turn On) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) AC is already ON. +3) AcOnTimer is already started by TCU +4) User does the IGN ON + +Expected Output: +1) TCU will restart the AcOnDuration timer whenever IGN is turned ON. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) AC is already ON. +3) AcOnTimer is already started by TCU +4) User perform any AC operations manually like changing temp values + +Expected Output: +1) TCU will restart the AcOnDuration timer whenever user performs any AC operations manually. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) AC is already ON. +3) AcOnDuration timer is already started by TCU +4) User requests for turned AC off + +Expected Output: +1) TCU will restart the AcOnDuration timer whenever user requests for AC turned ON/OFF + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state as = 0) +2) AC is already ON. +3) AcOnTimer is already started by TCU +4) User does the IGN ON + +Expected Output: +1) AC should be turned off immediately when user does IGN ON. +2) AcOnTimer is killed when user does IGN ON + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state as = 0) +2) AC is already ON. +3) AcOnTimer is already started by TCU +4) User does the IGN ON + +Expected Output: +1) AC should be turned off when AcOnTimer expires. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state as = 0) +2) AC is already ON. +3) AcOnDuration timer is already started by TCU +4) User requests for turned AC off + +Expected Output: +1) AC should turned off and AcOnTimer should be killed. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Mobile app is sending Turn On AC request to Cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1) IGN is OFF (Power mode state as =0) +2) User turns ON the AC remotely. +3) AC is turned ON and Remote sequence completed + +Expected Output: +1) Verify that TCU is publishing TCU_NMPDU on CAN once the remote command sequence started. +2) TCU should stop publishing the TCU_NMPDU signal post the remote command sequence is completed. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Sleep + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app + +Expected Output: +1) Verify that Cloud should wake up TCU by sending SMS +2) Verify that cloud is creating StartAcCommand as payload as per SetTemp and SetTimer value. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving StartAcCommand information from Cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as =0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app + +Expected Output: +1) Cloud sends the StartAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) AC is turned ON remotely + + +Expected Output: +1) Verify that TCU is wakeup (TCU_NMPDU over CAN) upon receiving the wakeup via SMS from cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Verification of all AC signals over CAN + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Verify following signal over CAN : +RemoteAcCmd=1 +RemoteAcCmd=0 +TCuAcTemperatureSet=20 +TCuAcTemperatureSetStatus=0 +CabinCoolingSVSignal=2 +CabinCoolingSVSignalStatus=0 +ComfortState=1 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Sleep + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Verify that TCU wakeup over SMS by Mobile app +2)Verify TCU_NMPDU publishes on Vehicle CAN +3) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=1. +4) Verify FATC published CCM_RC1 with AcReqNew=1 on CAN and turn on the blower. +5) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=2 and turn on the compressor. +6) TCU sends success response for Remote AC command to Cloud. +7) Verify that TCU export AC ON event to cloud +8) Verify in TCU logs that TCU starts timer of 5 min +9) Verify that after expiry of that timer TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0 and AC should be turned OFF. +10) Verify that TCU export AC OFF event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving StartAcCommand information from Cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App + + +Expected Output: +1) Cloud sends the StartAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) AC is turned ON remotely + + +Expected Output: +1) Verify that TCU is wakeup (TCU_NMPDU over CAN) upon receiving the wakeup via SMS from cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Verification of all AC signals over CAN + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already turned ON + + +Test Procedure: +1) User sends Turn OFF AC request from mobile App remotely. + +Expected Output: +1)Verify TCU_NMPDU publishes on Vehicle CAN +2) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0. +3) Verify FATC published CCM_RC1 with AcReqNew=0 on CAN and turn off the blower. +4) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=0 and turn off the compressor. +5) TCU sends success response for Remote AC OFF command to Cloud. +6) Verify that TCU export AC OFF event to cloud. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Sleep + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app + +Expected Output: +1) Verify that Cloud should wake up TCU by sending SMS +2) Verify that cloud is creating StartAcCommand as payload as per SetTemp and SetTimer value. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving StartAcCommand information from Cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app + +Expected Output: +1) Cloud sends the StartAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) AC is turned ON remotely + + +Expected Output: +1) Verify that TCU is wakeup (TCU_NMPDU over CAN) upon receiving the wakeup via SMS from cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Verification of all AC signals over CAN + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Verify following signal over CAN : +RemoteAcCmd=1 +RemoteAcCmd=0 +TCuAcTemperatureSet=20 +TCuAcTemperatureSetStatus=0 +CabinCoolingSVSignal=2 +CabinCoolingSVSignalStatus=0 +ComfortState=1 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Sleep + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Verify that TCU wakeup over SMS by Mobile app +2)Verify TCU_NMPDU publishes on Vehicle CAN +3) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=1. +4) Verify FATC published CCM_RC1 with AcReqNew=1 on CAN and turn on the blower. +5) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=2 and turn on the compressor. +6) TCU sends success response for Remote AC command to Cloud. +7) Verify that TCU export AC ON event to cloud +8) Verify in TCU logs that TCU starts timer of 5 min +9) Verify that after expiry of that timer TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0 and AC should be turned OFF. +10) Verify that TCU export AC OFF event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving StartAcCommand information from Cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Cloud sends the StartAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) AC is turned ON remotely + + +Expected Output: +1) Verify that TCU is wakeup (TCU_NMPDU over CAN) upon receiving the wakeup via SMS from cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Verification of all AC signals over CAN + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already turned ON + + +Test Procedure: +1) User sends Turn OFF AC request from mobile App remotely. + +Expected Output: +1)Verify TCU_NMPDU publishes on Vehicle CAN +2) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0. +3) Verify FATC published CCM_RC1 with AcReqNew=0 on CAN and turn off the blower. +4) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=0 and turn off the compressor. +5) TCU sends success response for Remote AC OFF command to Cloud. +6) Verify that TCU export AC OFF event to cloud. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is ON (Power mode state as=6) +2) User sends Turn ON AC request from mobile App +3) App sends Turn ON request to cloud +4) Cloud wakes up TCU + + +Expected Output: +1) TCU should ignore the StartAcCommand sent by cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) Simulate the value of HVBattSoCPercen over CAN and it should be greater than SocThreshold +5) TailgateState=1 + + +Expected Output: +1)TCU shall export the command response (StartAcCmdResponse) as failure as per TMCVP document. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) Cloud is waking up TCU + + +Expected Output: +1) TCU decodes the StartAcCommand and extract the 'SetTemp' value and 'SetTimer' value +2) set StartAcCommand Wake Lock with timer Par_StartAcCommandWakeLock + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending wakeup information to BCM + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) App sends Turn ON request to cloud +5) Cloud wakes up TCU +6) FATC and BCM are sleeping + + +Expected Output: +1)Verify that TCU wakes up BCM over hardwired line: +BCM shall publish PowerModeState=2 when it is in awake mode and PowerModeStateStatus=0(plausible). +2) TCU should publish TCU_NMPDU message over CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) DoorStatePass=1 + + +Expected Output: +1)TCU shall export the command response (StartAcCmdResponse) as failure as per TMCVP document. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) All doors are closed + + +Expected Output: +1)Verify TCU is publishing RemoteAcCmd=1 and RemoteAcCmdStatus=0 to request FATC to turn On the AC. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App and changes temp values as well from Mobile app +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) All doors are closed + + +Expected Output: +1)Verify (RemoteAcTempSet=="SetTemp") over CAN +2) publish RemoteAcTempSetStatus=0 signal over CAN to FATC. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App +3) User set temp 22 degrees from mobile app +4) Check for HVBattSoCPercen over diagnostic CAN +5) value of HVBattSoCPercen is greater than SocThreshold +6) All doors are closed + + +Expected Output: +1)Verify : +RemoteAcCmd=1 +RemoteAcCmdStatus=0 +RemoteAcTempSet=22 +RemoteAcTempSetStatus=0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +) Mobile App is waking up TCU over SMS + + +Expected Output: +1) Check TCU internal logs for Remote AC command +2) TCU must have receive the same timer and temp values whatever user has sent from mobile app + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending wakeup information to BCM + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) App sends Turn ON request to cloud +4) Cloud wakes up TCU +5) FATC and BCM are sleeping + + +Expected Output: +1)Verify that TCU wakes up BCM over hardwired line: +BCM shall publish PowerModeState=2 when it is in awake mode and PowerModeStateStatus=0(plausible). +2) TCU should publish TCU_NMPDU message over CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) TailgateState=1 + + +Expected Output: +1)TCU shall export the command response (StartAcCmdResponse) as failure as per TMCVP document. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) All doors are closed + + +Expected Output: +1) Verify that TCU wakeup over SMS by Mobile app +2)Verify TCU_NMPDU publishes on Vehicle CAN +3) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=1. +4) Verify FATC published CCM_RC1 with AcReqNew=1 on CAN and turn on the blower. +5) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=2 and turn on the compressor. +6) TCU sends success response for Remote AC command to Cloud. +7) Verify that TCU export AC ON event to cloud +8) Verify in TCU logs that TCU starts timer of 5 min +9) Verify that after expiry of that timer TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0 and AC should be turned OFF. +10) Verify that TCU export AC OFF event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) All doors are closed + + +Expected Output: +1)Verify (RemoteAcTempSet=="SetTemp") over CAN + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) All doors are closed + + +Expected Output: +1)Verify (RemoteAcTempSet=="SetTemp") over CAN + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU wakes up all other ECUs + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App +3) Cloud send wake up to TCU and TCU will send wake to BCM + + +Expected Output: +1) All participating ECUs shall be woken up as per the wakeup strategy .[TBD] + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU and FATC communication + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) TCU and FATC communication + +Expected Output: +1) Verify that FATC shall read the RemoteAcCmd signal on CAN. +2) Verify that FATC turns AC ON in auto mode +3)verify that RemoteAcCmd=1 with the "SetTemp" value of RemoteAcTempSet signal OR with the pre-configured temperature (setTemp) value. + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) FATC and VCU communication + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) FATC and VCU communication + +Expected Output: +1) Verify that FATC shall publish the Ac ON request to VCU as per its internal logic.[TBD] + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU and FATC communication + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) TCU and FATC communication + +Expected Output: +1) Verify that FATC shall read the "RemoteAcCmd" signal on CAN. +2) Verify that FATC turns AC ON in auto mode +3)verify that RemoteAcCmd=="1" with the "SetTemp" value of RemoteAcTempSet signal + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) FATC and VCU communication + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) FATC and VCU communication + +Expected Output: +1) Verify that FATC shall publish AcReqNew=1 request to VCU as per its internal logic. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU and VCU communication + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) TCU is communicating with VCU + + +Expected Output: +1) Verify that FATC shall publish the Ac ON request to VCU +2) Verify that VCU is turning ON the E compressor +3) Verify that VCU shall publish the E-compressor status +CabinCoolingSVSignal="2" post successful compressor ON to TCU +4) Verify the CabinCoolingSVSignalStatus=0 signal over CAN to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) Set ComfortStatus = 1 and + CabinCoolingSVSignal = 0 + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) ComfortStatus = 1 and + CabinCoolingSVSignal = 2 + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) TCU releases StartAcCommand wake lock on successful AC turn ON + +Expected Output: +1) Verify that TCU is starting an AcOnTimer with SetTimer Par_AcOnDuration value internally +2)Verify that TCU is awake till the AC operation is completed (i.e. AcOnTimer is running). +3) Verify TCU_NMPDU messages over CAN till TCU goes to sleep state. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Check for ComfortState = 0 and + CabinCoolingSVSignal = 2 +2) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) + +Expected Output: +1) Verify that TCU sends failure vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Check for ComfortState = 0 and + CabinCoolingSVSignal = 0 +3) Verify that TCU sends AcOffEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App + + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Check for ComfortState = 1 and + CabinCoolingSVSignal = 2 +2) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App + + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2)Check for ComfortState = 1 and + CabinCoolingSVSignal = 0 +3) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) TCU releases StartAcCommand wake lock on successful AC turn ON + +Expected Output: +1) Verify that TCU is starting an AcOnTimer value internally +2)Verify that TCU is awake till the AC operation is completed (i.e. AcOnTimer is running). +3) Verify TCU_NMPDU messages over CAN till TCU goes to sleep state. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) TCU reads ComfortState +5) "SetTemp" OR "RemoteAcTempSet" is reached + +Expected Output: +1)Verify that FATC is publishing ComfortState=1 over CAN + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) TCU reads ComfortState +5) "SetTemp" OR "RemoteAcTempSet" is not reached + +Expected Output: +1)Verify that FATC is publishing ComfortState=0 over CAN + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) "SetTemp" OR "RemoteAcTempSet" is reached + +Expected Output: +1)Verify that FATC is publishing ComfortState=1 over CAN + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) "SetTemp" OR "RemoteAcTempSet" is not reached + +Expected Output: +1)Verify that FATC is publishing ComfortState=0 over CAN + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AC off request to FATC + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) After SetTimer Expires + +Expected Output: +TCU publishes to FATC : +1)Verify that RemoteAcCmd=0 CAN +2) Verify RemoteAcCmdStatus=0 over CAN + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AC off request to FATC + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) After SetTimer Expires + +Expected Output: +TCU publishes to FATC : +1)Verify that RemoteAcCmd=0 in 1EF message over CAN +2) Verify RemoteAcCmdStatus=0 over CAN +3) AC should be turned OFF + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AC off request to FATC + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) After AcOnTimer expires +5)RemoteAcCmd=0 + +Expected Output: +1) Verify that FATC publishes AcoffReq over CAN to VCU +2) Verify ComfortStatus=0 over CAN + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AC off request to FATC + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) After AcOnTimer expires + + +Expected Output: +1) Verify that FATC publishes AcReqNew=0 over CAN to VCU +2) Verify ComfortStatus=0 over CAN + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives ComfortStatus from FATC and CabinCoolingSVSignal from VCU + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is ON (powermode=6) +2) User sends Turn ON AC request from mobile App and also changes temp from mobile app +3) Simulate ComfortStatus = 1 and +CabinCoolingSVSignal = 0 on CAN + +Expected Output: +1) Verify that TCU is sending AcOnEvent to Cloud. + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is receiving Turn AC OFF request from App. + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON +4) TCU is in sleep mode + +Test Procedure: +1) IGN is OFF(powermode state=0) +2) User Turn off the AC from the mobile App +3) Cloud receives AC turn off request from App + + +Expected Output: +1) Verify that Cloud is waking up TCU by sending SMS +2)Verify that Cloud is creating StopAcCommand payload +3) Verify that Cloud is sending StopAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads E compressor information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) User sends Turn ON AC request from mobile App +2) After AcOnTimer expires +3) FATC publishes AcoffReq over CAN to VCU + + +Expected Output: +1) Verify that after reading E-Compressor status VCU publishes: +CabinCoolingSVSignal=0 +CabinCoolingSVSignalStatus=0 on CAN +2) TCU will send AcOffEvent to cloud as per TMCVP via GSM/GPRS communication. + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives ComfortStatus from FATC and CabinCoolingSVSignal from VCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is ON (powermode=6) +2) User sends Turn ON AC request from mobile App and also changes temp from mobile app +3) TCU reads the : +a) ComfortStatus from FATC +b) CabinCoolingSVSignal from VCU +4) ComfortStatus = 1 and +CabinCoolingSVSignal = 0 + +Expected Output: +1) Verify that TCU is sending AcOnEvent to Cloud. + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is receiving Turn AC OFF request from App. + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON +4) TCU is in sleep mode + +Test Procedure: +1) IGN is OFF(powermode state=0) +2) User Turn off the AC from the mobile App +3) Cloud receives AC turn off request from App + + +Expected Output: +1) Verify that Cloud is waking up TCU by sending SMS +2)Verify that Cloud is creating StopAcCommand payload +3) Verify that Cloud is sending StopAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads E compressor information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) User sends Turn ON AC request from mobile App +2) After AcOnTimer expires +3) FATC publishes AcReqNew=0 over CAN to VCU + + +Expected Output: +1) Verify that after reading E-Compressor status VCU publishes: +CabinCoolingSVSignal=0 +CabinCoolingSVSignalStatus=0 on CAN +2) TCU will send AcOffEvent to cloud. + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives ComfortStatus from FATC and CabinCoolingSVSignal from VCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is ON (powermode=6) +2) User sends Turn ON AC request from mobile App +3) TCU reads the : +a) ComfortStatus from FATC +b) CabinCoolingSVSignal from VCU +4) ComfortStatus = 0 and +CabinCoolingSVSignal = 2 + +Expected Output: +1) Verify that TCU is sending AcOnEvent to Cloud. + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is receiving Turn AC OFF request from App. + +Pre-condition: +1) vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON +4) TCU is in sleep mode + +Test Procedure: +1) IGN is OFF(powermode state=0) +2) AC is already ON +3) User Turn off the AC from the mobile App + + + +Expected Output: +1)Verify that Mobile app is waking up TCU by sending SMS +2)Verify TCU_NMPDU publishes on Vehicle CAN +3) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0. +4) Verify FATC published CCM_RC1 with AcReqNew=0 on CAN and turn off the blower. +5) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=0 and turn off the compressor. +6) TCU sends success response for Remote AC OFF command to Cloud. +7) Verify that TCU export AC OFF event to cloud. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives AC off information from Cloud + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) IGN is ON(powermode state=6) +2) User Turn off the AC from the mobile App +3) TCU receives AC off information from Cloud + +Expected Output: +1) Verify that TCU should ignore the StopAcCommand to turn off the AC. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives AC off information from Cloud + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) IGN is OFF(powermode state=0) +2) User Turn off the AC from the mobile App +3) Cloud receives AC turn off request from App +4) TCU receives StopAcCommand from Cloud + + +Expected Output: +1)Verify that TCU Set StopAcCommand WakeLock with timer Par_StopAcCommandWakeLock +2)Verify that RemoteAcCmd=0 +3)Verify that RemoteAcCmdStatus=0 +4) Verify that TCU exports the RemoteAcCmd=0 signal to cloud platform + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) FATC and VCU communication + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) FATC reads RemoteAcCmd on CAN : +RemoteAcCmd=0 +RemoteAcCmdStatus=0 + +Expected Output: +1) Verify that FATC should send AcOffReq signals to VCU + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) FATC and VCU communication + +Pre-condition: +1) vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) FATC reads RemoteAcCmd on CAN : +RemoteAcCmd=0 +RemoteAcCmdStatus=0 + +Expected Output: +1) Verify that FATC should send AcReqNew=0 signals to VCU + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU sends AC OFF response + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) Cloud receives AC turn off request from App +3)TCU sends AC OFF response +4) CabinCoolingSVSignal=0 + +Expected Output: +1) Verify that TCU sends successful vehicle AC OFF response (Response of StopAcCommand) to Cloud. +2) Verify that TCU sends AcOffEvent to cloud as per TMCVP. +3) Verify that TCU releases StopAcCommand wake lock if successful Ac turn OFF or Par_StopAcCommandWakeLock expires (whichever is earlier). + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU sends AC OFF response + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) Cloud receives AC turn off request from App +3)TCU sends AC OFF response +4) CabinCoolingSVSignal=2 + +Expected Output: +1) Verify that TCU sends unsuccessful vehicle AC OFF response (Response of StopAcCommand) to Cloud. + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) VCU is turning OFF E-compressor + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) VCU receives AcOffReq from FATC. + +Expected Output: +1) E compressor should be turned off +2) Verify CabinCoolingSVSignal=0 over CAN +3) Verify CabinCoolingSVSignalStatus=0 over CAN + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Communication between VCU, BCM, TCU, IPC, FATC and TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) TCU sends +RemoteAcCmdStatus=1 (Don't Care) +OR +RemoteAcCmdStatus=2 (Signal is Implausible) OR +RemoteAcCmdStatus=3 (Signal not available) + +Expected Output: +1)VCU or BCM or TCU or IPC or FATC on receiving RemoteAcCmdStatus = 1 (OR) 2 (OR) 3 from TCU, shall discard that signal. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Communication between VCU, BCM, TCU, IPC, FATC and TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) TCU sends +RemoteAcTempSetStatus=2 (Signal is Implausible) + OR +RemoteAcTempSetStatus=3 (Signal not available) + +Expected Output: +1)VCU or BCM or TCU or IPC or FATC +RemoteAcTempSetStatus= 2 (OR) 3 from TCU, shall discard that signal. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Communication between VCU, BCM, TCU, IPC, FATC and TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) User turn ON AC via mobile app and select timer for 5 min +(Defualt temp value is 25 degree in App) + +Expected Output: +1)Verify TCU_NMPDU publishes on Vehicle CAN +2) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=1. +3) Verify FATC published CCM_RC1 with AcReqNew=1 on CAN and turn on the blower. +4) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=2 and turn on the compressor. +5) TCU sends success response for Remote AC command to Cloud. +6) Verify that TCU export AC ON event to cloud +6) Verify in TCU logs that TCU starts timer of 5 min +7) Verify that after expiry of that timer TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0 and AC should be turned OFF. +8) Verify that TCU export AC OFF event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Communication between VCU, BCM, TCU, IPC, FATC and TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) Set Powermode value = 0 +2) User sends AC ON command from mobile app +3) TCU sends +RemoteAcTempSetStatus=2 (Signal is Implausible) + OR +RemoteAcTempSetStatus=3 (Signal not available) + +Expected Output: +1)FATC should discard AC on request from TCU. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Mobile app is sending Turn On AC request to Cloud. + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) Send unlockvehiclecommand from cloud +3) TCU is not receiving StartAcCommand from cloud + +Expected Output: +TCU should publish don't care condition of status signal RemoteAcCmdStatus=1 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Mobile app is sending Turn On AC request to Cloud + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + +Test Procedure: +1) IGN is ON (Power mode state as = 6) +2) Send unlockvehiclecommand from cloud +3) Platform sends StartAcCommand to TCU + +Expected Output: +TCU should publish don't care condition of status signal RemoteAcCmdStatus=1 because IGN is set ON. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives StartAcCommand information from Cloud + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) TCU receives valid StartAcCommand from cloud + + + +Expected Output: +1) Verify RemoteAcCmdStatus=0 over CAN +2) verify RemoteAcCmd=1 +2) TCU shall not publish SNA or Implausible unless specifically mentioned in the requirements. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. + + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + +Test Procedure: +1) TCU is publishing TCU_NMPDU over CAN + +Expected Output: +1) TCU, IPC, FATC, VCU and BCM shall remain awake + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving HvBattPackVol information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) Set HvBattPackVol = 8 volts (anything below 9 ) +3)User sends Turn ON AC request from mobile App + +Expected Output: +1) Verify the following signal over CAN: + RemoteAcCmd=0 (FATC shall not execute the remote AC ON/OFF command when battery voltage is below 9) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving HvBattPackVol information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) Set HvBattPackVol=17volts (anything above 17 ) +2)User sends Turn ON AC request from mobile App + +Expected Output: +1) Verify the following signal over CAN: + RemoteAcCmd=0 (FATC shall not execute the remote AC ON/OFF command when battery voltage is above 16) + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving HvBattPackVol information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) Set HvBattPackVol=13volts (between 9 to 16) +3)User sends Turn ON AC request from mobile App + +Expected Output: +1) Verify the following signal over CAN: +RemoteAcCmd=1 +(AC should turn On) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) AC is already ON. +3) AcOnTimer is already started by TCU +4) User does the IGN ON + +Expected Output: +1) TCU will restart the AcOnDuration timer whenever IGN is turned ON. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) AC is already ON. +3) AcOnTimer is already started by TCU +4) User perform any AC operations manually like changing temp values + +Expected Output: +1) TCU will restart the AcOnDuration timer whenever user performs any AC operations manually. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) AC is already ON. +3) AcOnDuration timer is already started by TCU +4) User requests for turned AC off + +Expected Output: +1) TCU will restart the AcOnDuration timer whenever user requests for AC turned ON/OFF + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state as = 0) +2) AC is already ON. +3) AcOnTimer is already started by TCU +4) User does the IGN ON + +Expected Output: +1) AC should be turned off immediately when user does IGN ON. +2) AcOnTimer is killed when user does IGN ON + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state as = 0) +2) AC is already ON. +3) AcOnTimer is already started by TCU +4) User does the IGN ON + +Expected Output: +1) AC should be turned off when AcOnTimer expires. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state as = 0) +2) AC is already ON. +3) AcOnDuration timer is already started by TCU +4) User requests for turned AC off + +Expected Output: +1) AC should turned off and AcOnTimer should be killed. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Mobile app is sending Turn On AC request to Cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1) IGN is OFF (Power mode state as =0) +2) User turns ON the AC remotely. +3) AC is turned ON and Remote sequence completed + +Expected Output: +1) Verify that TCU is publishing TCU_NMPDU on CAN once the remote command sequence started. +2) TCU should stop publishing the TCU_NMPDU signal post the remote command sequence is completed. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Sleep + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app + +Expected Output: +1) Verify that Cloud should wake up TCU by sending SMS +2) Verify that cloud is creating StartAcCommand as payload as per SetTemp and SetTimer value. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving StartAcCommand information from Cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app + +Expected Output: +1) Cloud sends the StartAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) AC is turned ON remotely + + +Expected Output: +1) Verify that TCU is wakeup (TCU_NMPDU over CAN) upon receiving the wakeup via SMS from cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Verification of all AC signals over CAN + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Verify following signal over CAN : +RemoteAcCmd=1 +RemoteAcCmd=0 +TCuAcTemperatureSet=20 +TCuAcTemperatureSetStatus=0 +CabinCoolingSVSignal=2 +CabinCoolingSVSignalStatus=0 +ComfortState=1 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Sleep + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Verify that TCU wakeup over SMS by Mobile app +2)Verify TCU_NMPDU publishes on Vehicle CAN +3) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=1. +4) Verify FATC published CCM_RC1 with AcReqNew=1 on CAN and turn on the blower. +5) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=2 and turn on the compressor. +6) TCU sends success response for Remote AC command to Cloud. +7) Verify that TCU export AC ON event to cloud +8) Verify in TCU logs that TCU starts timer of 5 min +9) Verify that after expiry of that timer TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0 and AC should be turned OFF. +10) Verify that TCU export AC OFF event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving StartAcCommand information from Cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Cloud sends the StartAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) AC is turned ON remotely + + +Expected Output: +1) Verify that TCU is wakeup (TCU_NMPDU over CAN) upon receiving the wakeup via SMS from cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Verification of all AC signals over CAN + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already turned ON + + +Test Procedure: +1) User sends Turn OFF AC request from mobile App remotely. + +Expected Output: +1)Verify TCU_NMPDU publishes on Vehicle CAN +2) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0. +3) Verify FATC published CCM_RC1 with AcReqNew=0 on CAN and turn off the blower. +4) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=0 and turn off the compressor. +5) TCU sends success response for Remote AC OFF command to Cloud. +6) Verify that TCU export AC OFF event to cloud. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Sleep + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app + +Expected Output: +1) Verify that Cloud should wake up TCU by sending SMS +2) Verify that cloud is creating StartAcCommand as payload as per SetTemp and SetTimer value. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving StartAcCommand information from Cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app + +Expected Output: +1) Cloud sends the StartAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) AC is turned ON remotely + + +Expected Output: +1) Verify that TCU is wakeup (TCU_NMPDU over CAN) upon receiving the wakeup via SMS from cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Verification of all AC signals over CAN + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Verify following signal over CAN : +RemoteAcCmd=1 +RemoteAcCmd=0 +TCuAcTemperatureSet=20 +TCuAcTemperatureSetStatus=0 +CabinCoolingSVSignal=2 +CabinCoolingSVSignalStatus=0 +ComfortState=1 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Sleep + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Verify that TCU wakeup over SMS by Mobile app +2)Verify TCU_NMPDU publishes on Vehicle CAN +3) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=1. +4) Verify FATC published CCM_RC1 with AcReqNew=1 on CAN and turn on the blower. +5) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=2 and turn on the compressor. +6) TCU sends success response for Remote AC command to Cloud. +7) Verify that TCU export AC ON event to cloud +8) Verify in TCU logs that TCU starts timer of 5 min +9) Verify that after expiry of that timer TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0 and AC should be turned OFF. +10) Verify that TCU export AC OFF event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving StartAcCommand information from Cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Cloud sends the StartAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) AC is turned ON remotely + + +Expected Output: +1) Verify that TCU is wakeup (TCU_NMPDU over CAN) upon receiving the wakeup via SMS from cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Verification of all AC signals over CAN + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already turned ON + + +Test Procedure: +1) User sends Turn OFF AC request from mobile App remotely. + +Expected Output: +1)Verify TCU_NMPDU publishes on Vehicle CAN +2) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0. +3) Verify FATC published CCM_RC1 with AcReqNew=0 on CAN and turn off the blower. +4) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=0 and turn off the compressor. +5) TCU sends success response for Remote AC OFF command to Cloud. +6) Verify that TCU export AC OFF event to cloud. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is ON (Powermode state as=6) +2) User sends Turn ON AC request from mobile App +3) App sends Turn ON request to cloud +4) Cloud wakes up TCU + + +Expected Output: +1) TCU should ignore the StartAcCommand sent by cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) Simulate the value of HVBattSoCPercen over CAN and it should be greater than SocThreshold +5) TailgateState=1 + + +Expected Output: +1)TCU shall export the command response (StartAcCmdResponse) as failure as per TMCVP document. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) Cloud is waking up TCU + + +Expected Output: +1) TCU decodes the StartAcCommand and extract the 'SetTemp' value and 'SetTimer' value +2) set StartAcCommand Wake Lock with timer Par_StartAcCommandWakeLock + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending wakeup information to BCM + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) App sends Turn ON request to cloud +5) Cloud wakes up TCU +6) FATC and BCM are sleeping + + +Expected Output: +1)Verify that TCU wakes up BCM over hardwired line: +BCM shall publish PowerModeState=2 when it is in awake mode and PowerModeStateStatus=0(plausible). +2) TCU should publish TCU_NMPDU message over CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) DoorStatePass=1 + + +Expected Output: +1)TCU shall export the command response (StartAcCmdResponse) as failure as per TMCVP document. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) All doors are closed + + +Expected Output: +1)Verify TCU is publishing RemoteAcCmd=1 and RemoteAcCmdStatus=0 to request FATC to turn On the AC. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App and changes temp values as well from Mobile app +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) All doors are closed + + +Expected Output: +1)Verify (RemoteAcTempSet=="SetTemp") over CAN +2) publish RemoteAcTempSetStatus=0 signal over CAN to FATC. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App +3) User set temp 22 degrees from mobile app +4) Check for HVBattSoCPercen over diagnostic CAN +5) value of HVBattSoCPercen is greater than SocThreshold +6) All doors are closed + + +Expected Output: +1)Verify : +RemoteAcCmd=1 +RemoteAcCmdStatus=0 +RemoteAcTempSet=22 +RemoteAcTempSetStatus=0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +) Mobile App is waking up TCU over SMS + + +Expected Output: +1) Check TCU internal logs for Remote AC command +2) TCU must have receive the same timer and temp values whatever user has sent from mobile app + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending wakeup information to BCM + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) App sends Turn ON request to cloud +4) Cloud wakes up TCU +5) FATC and BCM are sleeping + + +Expected Output: +1)Verify that TCU wakes up BCM over hardwired line: +BCM shall publish PowerModeState=2 when it is in awake mode and PowerModeStateStatus=0(plausible). +2) TCU should publish TCU_NMPDU message over CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) TailgateState=1 + + +Expected Output: +1)TCU shall export the command response (StartAcCmdResponse) as failure as per TMCVP document. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) All doors are closed + + +Expected Output: +1) Verify that TCU wakeup over SMS by Mobile app +2)Verify TCU_NMPDU publishes on Vehicle CAN +3) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=1. +4) Verify FATC published CCM_RC1 with AcReqNew=1 on CAN and turn on the blower. +5) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=2 and turn on the compressor. +6) TCU sends success response for Remote AC command to Cloud. +7) Verify that TCU export AC ON event to cloud +8) Verify in TCU logs that TCU starts timer of 5 min +9) Verify that after expiry of that timer TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0 and AC should be turned OFF. +10) Verify that TCU export AC OFF event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU wakes up all other ECUs + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App +3) Cloud send wake up to TCU and TCU will send wake to BCM + + +Expected Output: +1) All participating ECUs shall be woken up as per the wakeup strategy .[TBD] + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU wakes up all other ECUs + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) Mobile App sends SMS wake up to TCU and TCU will send hardwired wakeup to BCM + + +Expected Output: +1) All participating ECUs shall be woken up as per the wakeup strategy (BCM,VCU and FATC) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU and FATC communication + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) TCU and FATC communication + +Expected Output: +1) Verify that FATC shall read the RemoteAcCmd signal on CAN. +2) Verify that FATC turns AC ON in auto mode +3)verify that RemoteAcCmd=1 with the "SetTemp" value of RemoteAcTempSet signal OR with the pre-configured temperature (setTemp) value. + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) FATC and VCU communication + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) FATC and VCU communication + +Expected Output: +1) Verify that FATC shall publish the Ac ON request to VCU as per its internal logic.[TBD] + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU and FATC communication + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) TCU and FATC communication + +Expected Output: +1) Verify that FATC shall read the "RemoteAcCmd" signal on CAN. +2) Verify that FATC turns AC ON in auto mode +3)verify that RemoteAcCmd=="1" with the "SetTemp" value of RemoteAcTempSet signal + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) FATC and VCU communication + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) FATC and VCU communication + +Expected Output: +1) Verify that FATC shall publish AcReqNew=1 request to VCU as per its internal logic. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU and VCU communication + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) TCU is communicating with VCU + + +Expected Output: +1) Verify that FATC shall publish AcReqNew=1 request to VCU +2) Verify that VCU is turning ON the E compressor +3) Verify that VCU shall publish the E-compressor status +CabinCoolingSVSignal="2" post successful compressor ON to TCU +4) Verify the CabinCoolingSVSignalStatus=0 signal over CAN to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) Set ComfortStatus = 1 and + CabinCoolingSVSignal = 0 + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) ComfortStatus = 1 and + CabinCoolingSVSignal = 2 + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) TCU releases StartAcCommand wake lock on successful AC turn ON + +Expected Output: +1) Verify that TCU is starting an AcOnTimer with SetTimer Par_AcOnDuration value internally +2)Verify that TCU is awake till the AC operation is completed (i.e. AcOnTimer is running). +3) Verify TCU_NMPDU messages over CAN till TCU goes to sleep state. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Check for ComfortState = 0 and + CabinCoolingSVSignal = 2 +2) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) + +Expected Output: +1) Verify that TCU sends failure vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Check for ComfortState = 0 and + CabinCoolingSVSignal = 0 +3) Verify that TCU sends AcOffEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App + + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Check for ComfortState = 1 and + CabinCoolingSVSignal = 2 +2) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App + + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2)Check for ComfortState = 1 and + CabinCoolingSVSignal = 0 +3) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) TCU releases StartAcCommand wake lock on successful AC turn ON + +Expected Output: +1) Verify that TCU is starting an AcOnTimer value internally +2)Verify that TCU is awake till the AC operation is completed (i.e. AcOnTimer is running). +3) Verify TCU_NMPDU messages over CAN till TCU goes to sleep state. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) TCU reads ComfortState +5) "SetTemp" OR "RemoteAcTempSet" is reached + +Expected Output: +1)Verify that FATC is publishing ComfortState=1 over CAN + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) TCU reads ComfortState +5) "SetTemp" OR "RemoteAcTempSet" is not reached + +Expected Output: +1)Verify that FATC is publishing ComfortState=0 over CAN + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) "SetTemp" OR "RemoteAcTempSet" is reached + +Expected Output: +1)Verify that FATC is publishing ComfortState=1 over CAN + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) "SetTemp" OR "RemoteAcTempSet" is not reached + +Expected Output: +1)Verify that FATC is publishing ComfortState=0 over CAN + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AC off request to FATC + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) After SetTimer Expires + +Expected Output: +TCU publishes to FATC : +1)Verify that RemoteAcCmd=0 CAN +2) Verify RemoteAcCmdStatus=0 over CAN + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AC off request to FATC + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) After SetTimer Expires + +Expected Output: +TCU publishes to FATC : +1)Verify that RemoteAcCmd=0 in 1EF message over CAN +2) Verify RemoteAcCmdStatus=0 over CAN +3) AC should be turned OFF + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AC off request to FATC + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) After AcOnTimer expires +5)RemoteAcCmd=0 + +Expected Output: +1) Verify that FATC publishes AcoffReq over CAN to VCU +2) Verify ComfortStatus=0 over CAN + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AC off request to FATC + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) After AcOnTimer expires + + +Expected Output: +1) Verify that FATC publishes AcReqNew=0 over CAN to VCU +2) Verify ComfortStatus=0 over CAN + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives ComfortStatus from FATC and CabinCoolingSVSignal from VCU + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is ON (powermode=6) +2) User sends Turn ON AC request from mobile App and also changes temp from mobile app +3) Simulate ComfortStatus = 1 and +CabinCoolingSVSignal = 0 on CAN + +Expected Output: +1) Verify that TCU is sending AcOnEvent to Cloud. + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is receiving Turn AC OFF request from App. + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON +4) TCU is in sleep mode + +Test Procedure: +1) IGN is OFF(powermode state=0) +2) User Turn off the AC from the mobile App +3) Cloud receives AC turn off request from App + + +Expected Output: +1) Verify that Cloud is waking up TCU by sending SMS +2)Verify that Cloud is creating StopAcCommand payload +3) Verify that Cloud is sending StopAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads E compressor information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) User sends Turn ON AC request from mobile App +2) After AcOnTimer expires +3) FATC publishes AcoffReq over CAN to VCU + + +Expected Output: +1) Verify that after reading E-Compressor status VCU publishes: +CabinCoolingSVSignal=0 +CabinCoolingSVSignalStatus=0 on CAN +2) TCU will send AcOffEvent to cloud as per TMCVP via GSM/GPRS communication. + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives ComfortStatus from FATC and CabinCoolingSVSignal from VCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is ON (powermode=6) +2) User sends Turn ON AC request from mobile App and also changes temp from mobile app +3) TCU reads the : +a) ComfortStatus from FATC +b) CabinCoolingSVSignal from VCU +4) ComfortStatus = 1 and +CabinCoolingSVSignal = 0 + +Expected Output: +1) Verify that TCU is sending AcOnEvent to Cloud. + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is receiving Turn AC OFF request from App. + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON +4) TCU is in sleep mode + +Test Procedure: +1) IGN is OFF(powermode state=0) +2) User Turn off the AC from the mobile App +3) Cloud receives AC turn off request from App + + +Expected Output: +1) Verify that Cloud is waking up TCU by sending SMS +2)Verify that Cloud is creating StopAcCommand payload +3) Verify that Cloud is sending StopAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads E compressor information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) User sends Turn ON AC request from mobile App +2) After AcOnTimer expires +3) FATC publishes AcReqNew=0 over CAN to VCU + + +Expected Output: +1) Verify that after reading E-Compressor status VCU publishes: +CabinCoolingSVSignal=0 +CabinCoolingSVSignalStatus=0 on CAN +2) TCU will send AcOffEvent to cloud. + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives ComfortStatus from FATC and CabinCoolingSVSignal from VCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is ON (powermode=6) +2) User sends Turn ON AC request from mobile App +3) TCU reads the : +a) ComfortStatus from FATC +b) CabinCoolingSVSignal from VCU +4) ComfortStatus = 0 and +CabinCoolingSVSignal = 2 + +Expected Output: +1) Verify that TCU is sending AcOnEvent to Cloud. + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is receiving Turn AC OFF request from App. + +Pre-condition: +1) vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON +4) TCU is in sleep mode + +Test Procedure: +1) IGN is OFF(powermode state=0) +2) AC is already ON +3) User Turn off the AC from the mobile App + + + +Expected Output: +1)Verify that Mobile app is waking up TCU by sending SMS +2)Verify TCU_NMPDU publishes on Vehicle CAN +3) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0. +4) Verify FATC published CCM_RC1 with AcReqNew=0 on CAN and turn off the blower. +5) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=0 and turn off the compressor. +6) TCU sends success response for Remote AC OFF command to Cloud. +7) Verify that TCU export AC OFF event to cloud. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives AC off information from Cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) IGN is ON(powermode state=6) +2) User Turn off the AC from the mobile App +3) TCU receives AC off information from Cloud + +Expected Output: +1) Verify that TCU should ignore the StopAcCommand to turn off the AC. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives AC off information from Cloud + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) IGN is OFF(powermode state=0) +2) User Turn off the AC from the mobile App +3) Cloud receives AC turn off request from App +4) TCU receives StopAcCommand from Cloud + + +Expected Output: +1)Verify that TCU Set StopAcCommand WakeLock with timer Par_StopAcCommandWakeLock +2)Verify that RemoteAcCmd=0 +3)Verify that RemoteAcCmdStatus=0 +4) Verify that TCU exports the RemoteAcCmd=0 signal to cloud platform + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) FATC and VCU communication + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) FATC reads RemoteAcCmd on CAN : +RemoteAcCmd=0 +RemoteAcCmdStatus=0 + +Expected Output: +1) Verify that FATC should send AcOffReq signals to VCU + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) FATC and VCU communication + +Pre-condition: +1) vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) FATC reads RemoteAcCmd on CAN : +RemoteAcCmd=0 +RemoteAcCmdStatus=0 + +Expected Output: +1) Verify that FATC should send AcReqNew=0 signals to VCU + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU sends AC OFF response + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) Cloud receives AC turn off request from App +3)TCU sends AC OFF response +4) CabinCoolingSVSignal=0 + +Expected Output: +1) Verify that TCU sends successful vehicle AC OFF response (Response of StopAcCommand) to Cloud. +2) Verify that TCU sends AcOffEvent to cloud as per TMCVP. +3) Verify that TCU releases StopAcCommand wake lock if successful Ac turn OFF or Par_StopAcCommandWakeLock expires (whichever is earlier). + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU sends AC OFF response + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) Cloud receives AC turn off request from App +3)TCU sends AC OFF response +4) CabinCoolingSVSignal=2 + +Expected Output: +1) Verify that TCU sends unsuccessful vehicle AC OFF response (Response of StopAcCommand) to Cloud. + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) VCU is turning OFF E-compressor + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) VCU receives AcOffReq from FATC. + +Expected Output: +1) E compressor should be turned off +2) Verify CabinCoolingSVSignal=0 over CAN +3) Verify CabinCoolingSVSignalStatus=0 over CAN + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Communication between VCU, BCM, TCU, IPC, FATC and TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) TCU sends +RemoteAcCmdStatus=1 (Don't Care) +OR +RemoteAcCmdStatus=2 (Signal is Implausible) OR +RemoteAcCmdStatus=3 (Signal not available) + +Expected Output: +1)VCU or BCM or TCU or IPC or FATC on receiving RemoteAcCmdStatus = 1 (OR) 2 (OR) 3 from TCU, shall discard that signal. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Communication between VCU, BCM, TCU, IPC, FATC and TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) TCU sends +RemoteAcTempSetStatus=2 (Signal is Implausible) + OR +RemoteAcTempSetStatus=3 (Signal not available) + +Expected Output: +1)VCU or BCM or TCU or IPC or FATC +RemoteAcTempSetStatus= 2 (OR) 3 from TCU, shall discard that signal. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Communication between VCU, BCM, TCU, IPC, FATC and TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) User turn ON AC via mobile app and select timer for 5 min +(Defualt temp value is 25 degree in App) + +Expected Output: +1)Verify TCU_NMPDU publishes on Vehicle CAN +2) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=1. +3) Verify FATC published CCM_RC1 with AcReqNew=1 on CAN and turn on the blower. +4) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=2 and turn on the compressor. +5) TCU sends success response for Remote AC command to Cloud. +6) Verify that TCU export AC ON event to cloud +6) Verify in TCU logs that TCU starts timer of 5 min +7) Verify that after expiry of that timer TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0 and AC should be turned OFF. +8) Verify that TCU export AC OFF event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Communication between VCU, BCM, TCU, IPC, FATC and TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) Set Powermode value as = 0 +2) User sends AC ON command from mobile app +3) TCU sends +RemoteAcTempSetStatus=2 (Signal is Implausible) + OR +RemoteAcTempSetStatus=3 (Signal not available) + +Expected Output: +1)FATC should discard AC on request from TCU. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Mobile app is sending Turn On AC request to Cloud. + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) Send unlockvehiclecommand from cloud +3) TCU is not receiving StartAcCommand from cloud + +Expected Output: +TCU should publish don't care condition of status signal RemoteAcCmdStatus=1 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Mobile app is sending Turn On AC request to Cloud + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + +Test Procedure: +1) IGN is ON (Power mode state as = 6) +2) Send unlockvehiclecommand from cloud +3) Platform sends StartAcCommand to TCU + +Expected Output: +TCU should publish don't care condition of status signal RemoteAcCmdStatus=1 because IGN is set ON. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives StartAcCommand information from Cloud + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) TCU receives valid StartAcCommand from cloud + + + +Expected Output: +1) Verify RemoteAcCmdStatus=0 over CAN +2) verify RemoteAcCmd=1 +2) TCU shall not publish SNA or Implausible unless specifically mentioned in the requirements. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. + + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + +Test Procedure: +1) TCU is publishing TCU_NMPDU over CAN + +Expected Output: +1) TCU, IPC, FATC, VCU and BCM shall remain awake + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving HvBattPackVol information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) Set HvBattPackVol = 8 volts (anything below 9 ) +3)User sends Turn ON AC request from mobile App + +Expected Output: +1) Verify the following signal over CAN: + RemoteAcCmd=0 (FATC shall not execute the remote AC ON/OFF command when battery voltage is below 9) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving HvBattPackVol information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) Set HvBattPackVol=17volts (anything above 17 ) +2)User sends Turn ON AC request from mobile App + +Expected Output: +1) Verify the following signal over CAN: + RemoteAcCmd=0 (FATC shall not execute the remote AC ON/OFF command when battery voltage is above 16) + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving HvBattPackVol information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) Set HvBattPackVol=13volts (between 9 to 16) +3)User sends Turn ON AC request from mobile App + +Expected Output: +1) Verify the following signal over CAN: +RemoteAcCmd=1 +(AC should turn On) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) AC is already ON. +3) AcOnTimer is already started by TCU +4) User does the IGN ON + +Expected Output: +1) TCU will restart the AcOnDuration timer whenever IGN is turned ON. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) AC is already ON. +3) AcOnTimer is already started by TCU +4) User perform any AC operations manually like changing temp values + +Expected Output: +1) TCU will restart the AcOnDuration timer whenever user performs any AC operations manually. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) AC is already ON. +3) AcOnDuration timer is already started by TCU +4) User requests for turned AC off + +Expected Output: +1) TCU will restart the AcOnDuration timer whenever user requests for AC turned ON/OFF + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state as = 0) +2) AC is already ON. +3) AcOnTimer is already started by TCU +4) User does the IGN ON + +Expected Output: +1) AC should be turned off immediately when user does IGN ON. +2) AcOnTimer is killed when user does IGN ON + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state as = 0) +2) AC is already ON. +3) AcOnTimer is already started by TCU +4) User does the IGN ON + +Expected Output: +1) AC should be turned off when AcOnTimer expires. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AcOnDuration timer information to cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state as = 0) +2) AC is already ON. +3) AcOnDuration timer is already started by TCU +4) User requests for turned AC off + +Expected Output: +1) AC should turned off and AcOnTimer should be killed. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Mobile app is sending Turn On AC request to Cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + +Test Procedure: +1) IGN is OFF (Power mode state as = 0) +2) User turns ON the AC remotely. +3) AC is turned ON and Remote sequence completed + +Expected Output: +1) Verify that TCU is publishing TCU_NMPDU on CAN once the remote command sequence started. +2) TCU should stop publishing the TCU_NMPDU signal post the remote command sequence is completed. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Sleep + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app + +Expected Output: +1) Verify that Cloud should wake up TCU by sending SMS +2) Verify that cloud is creating StartAcCommand as payload as per SetTemp and SetTimer value. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving StartAcCommand information from Cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app + +Expected Output: +1) Cloud sends the StartAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) AC is turned ON remotely + + +Expected Output: +1) Verify that TCU is wakeup (TCU_NMPDU over CAN) upon receiving the wakeup via SMS from cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Verification of all AC signals over CAN + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Verify following signal over CAN : +RemoteAcCmd=1 +RemoteAcCmd=0 +TCuAcTemperatureSet=20 +TCuAcTemperatureSetStatus=0 +CabinCoolingSVSignal=2 +CabinCoolingSVSignalStatus=0 +ComfortState=1 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Sleep + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Verify that TCU wakeup over SMS by Mobile app +2)Verify TCU_NMPDU publishes on Vehicle CAN +3) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=1. +4) Verify FATC published CCM_RC1 with AcReqNew=1 on CAN and turn on the blower. +5) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=2 and turn on the compressor. +6) TCU sends success response for Remote AC command to Cloud. +7) Verify that TCU export AC ON event to cloud +8) Verify in TCU logs that TCU starts timer of 5 min +9) Verify that after expiry of that timer TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0 and AC should be turned OFF. +10) Verify that TCU export AC OFF event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving StartAcCommand information from Cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Cloud sends the StartAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) AC is turned ON remotely + + +Expected Output: +1) Verify that TCU is wakeup (TCU_NMPDU over CAN) upon receiving the wakeup via SMS from cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Verification of all AC signals over CAN + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already turned ON + + +Test Procedure: +1) User sends Turn OFF AC request from mobile App remotely. + +Expected Output: +1)Verify TCU_NMPDU publishes on Vehicle CAN +2) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0. +3) Verify FATC published CCM_RC1 with AcReqNew=0 on CAN and turn off the blower. +4) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=0 and turn off the compressor. +5) TCU sends success response for Remote AC OFF command to Cloud. +6) Verify that TCU export AC OFF event to cloud. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Sleep + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app + +Expected Output: +1) Verify that Cloud should wake up TCU by sending SMS +2) Verify that cloud is creating StartAcCommand as payload as per SetTemp and SetTimer value. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving StartAcCommand information from Cloud + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app + +Expected Output: +1) Cloud sends the StartAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) AC is turned ON remotely + + +Expected Output: +1) Verify that TCU is wakeup (TCU_NMPDU over CAN) upon receiving the wakeup via SMS from cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Verification of all AC signals over CAN + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Verify following signal over CAN : +RemoteAcCmd=1 +RemoteAcCmd=0 +TCuAcTemperatureSet=20 +TCuAcTemperatureSetStatus=0 +CabinCoolingSVSignal=2 +CabinCoolingSVSignalStatus=0 +ComfortState=1 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Sleep + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Verify that TCU wakeup over SMS by Mobile app +2)Verify TCU_NMPDU publishes on Vehicle CAN +3) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=1. +4) Verify FATC published CCM_RC1 with AcReqNew=1 on CAN and turn on the blower. +5) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=2 and turn on the compressor. +6) TCU sends success response for Remote AC command to Cloud. +7) Verify that TCU export AC ON event to cloud +8) Verify in TCU logs that TCU starts timer of 5 min +9) Verify that after expiry of that timer TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0 and AC should be turned OFF. +10) Verify that TCU export AC OFF event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is receiving StartAcCommand information from Cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is Awake + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also set temp=20 degree from mobile app + +Expected Output: +1) Cloud sends the StartAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state as=0) +2) AC is turned ON remotely + + +Expected Output: +1) Verify that TCU is wakeup (TCU_NMPDU over CAN) upon receiving the wakeup via SMS from cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Verification of all AC signals over CAN + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already turned ON + + +Test Procedure: +1) User sends Turn OFF AC request from mobile App remotely. + +Expected Output: +1)Verify TCU_NMPDU publishes on Vehicle CAN +2) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0. +3) Verify FATC published CCM_RC1 with AcReqNew=0 on CAN and turn off the blower. +4) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=0 and turn off the compressor. +5) TCU sends success response for Remote AC OFF command to Cloud. +6) Verify that TCU export AC OFF event to cloud. + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is ON (Powermode state=6) +2) User sends Turn ON AC request from mobile App +3) App sends Turn ON request to cloud +4) Cloud wakes up TCU + + +Expected Output: +1) TCU should ignore the StartAcCommand sent by cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) Simulate the value of HVBattSoCPercen over CAN and it should be greater than SocThreshold +5) TailgateState=1 + + +Expected Output: +1)TCU shall export the command response (StartAcCmdResponse) as failure as per TMCVP document. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) Cloud is waking up TCU + + +Expected Output: +1) TCU decodes the StartAcCommand and extract the 'SetTemp' value and 'SetTimer' value +2) set StartAcCommand Wake Lock with timer Par_StartAcCommandWakeLock + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending wakeup information to BCM + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) App sends Turn ON request to cloud +5) Cloud wakes up TCU +6) FATC and BCM are sleeping + + +Expected Output: +1)Verify that TCU wakes up BCM over hardwired line: +BCM shall publish PowerModeState=2 when it is in awake mode and PowerModeStateStatus=0(plausible). +2) TCU should publish TCU_NMPDU message over CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state as=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) DoorStatePass=1 + + +Expected Output: +1)TCU shall export the command response (StartAcCmdResponse) as failure as per TMCVP document. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) All doors are closed + + +Expected Output: +1)Verify TCU is publishing RemoteAcCmd=1 and RemoteAcCmdStatus=0 to request FATC to turn On the AC. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App and changes temp values as well from Mobile app +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) All doors are closed + + +Expected Output: +1)Verify (RemoteAcTempSet=="SetTemp") over CAN +2) publish RemoteAcTempSetStatus=0 signal over CAN to FATC. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App +3) User set temp 22 degrees from mobile app +4) Check for HVBattSoCPercen over diagnostic CAN +5) value of HVBattSoCPercen is greater than SocThreshold +6) All doors are closed + + +Expected Output: +1)Verify : +RemoteAcCmd=1 +RemoteAcCmdStatus=0 +RemoteAcTempSet=22 +RemoteAcTempSetStatus=0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is sending the start AC command to TCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +) Mobile App is waking up TCU over SMS + + +Expected Output: +1) Check TCU internal logs for Remote AC command +2) TCU must have receive the same timer and temp values whatever user has sent from mobile app + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending wakeup information to BCM + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) App sends Turn ON request to cloud +4) Cloud wakes up TCU +5) FATC and BCM are sleeping + + +Expected Output: +1)Verify that TCU wakes up BCM over hardwired line: +BCM shall publish PowerModeState=2 when it is in awake mode and PowerModeStateStatus=0(plausible). +2) TCU should publish TCU_NMPDU message over CAN. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) TailgateState=1 + + +Expected Output: +1)TCU shall export the command response (StartAcCmdResponse) as failure as per TMCVP document. + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) All doors are closed + + +Expected Output: +1) Verify that TCU wakeup over SMS by Mobile app +2)Verify TCU_NMPDU publishes on Vehicle CAN +3) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=1. +4) Verify FATC published CCM_RC1 with AcReqNew=1 on CAN and turn on the blower. +5) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=2 and turn on the compressor. +6) TCU sends success response for Remote AC command to Cloud. +7) Verify that TCU export AC ON event to cloud +8) Verify in TCU logs that TCU starts timer of 5 min +9) Verify that after expiry of that timer TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0 and AC should be turned OFF. +10) Verify that TCU export AC OFF event to cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) User sends Turn ON AC request from mobile App + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) TCU is in Sleep mode + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) Check for HVBattSoCPercen over diagnostic CAN +4) value of HVBattSoCPercen is greater than SocThreshold +5) All doors are closed + + +Expected Output: +1)Verify (RemoteAcTempSet=="SetTemp") over CAN + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU wakes up all other ECUs + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) Mobile App sends SMS wake up to TCU and TCU will send hardwired wakeup to BCM + + +Expected Output: +1) All participating ECUs shall be woken up as per the wakeup strategy (BCM,VCU and FATC) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU wakes up all other ECUs + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App +3) Cloud send wake up to TCU and TCU will send wake to BCM + + +Expected Output: +1) All participating ECUs shall be woken up as per the wakeup strategy .[TBD] + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU wakes up all other ECUs + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) Mobile App sends SMS wake up to TCU and TCU will send hardwired wakeup to BCM + + +Expected Output: +1) All participating ECUs shall be woken up as per the wakeup strategy (BCM,VCU and FATC) + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU and FATC communication + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Power mode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) TCU and FATC communication + +Expected Output: +1) Verify that FATC shall read the RemoteAcCmd signal on CAN. +2) Verify that FATC turns AC ON in auto mode +3)verify that RemoteAcCmd=1 with the "SetTemp" value of RemoteAcTempSet signal OR with the pre-configured temperature (setTemp) value. + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) FATC and VCU communication + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) FATC and VCU communication + +Expected Output: +1) Verify that FATC shall publish the Ac ON request to VCU as per its internal logic.[TBD] + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU and FATC communication + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) TCU and FATC communication + +Expected Output: +1) Verify that FATC shall read the "RemoteAcCmd" signal on CAN. +2) Verify that FATC turns AC ON in auto mode +3)verify that RemoteAcCmd=="1" with the "SetTemp" value of RemoteAcTempSet signal + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) FATC and VCU communication + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) FATC and VCU communication + +Expected Output: +1) Verify that FATC shall publish AcReqNew=1 request to VCU as per its internal logic. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU and VCU communication + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) TCU is communicating with VCU + + +Expected Output: +1) Verify that FATC shall publish AcReqNew=1 request to VCU +2) Verify that VCU is turning ON the E compressor +3) Verify that VCU shall publish the E-compressor status +CabinCoolingSVSignal="2" post successful compressor ON to TCU +4) Verify the CabinCoolingSVSignalStatus=0 signal over CAN to TCU + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) Set ComfortStatus = 1 and + CabinCoolingSVSignal = 0 + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) ComfortStatus = 1 and + CabinCoolingSVSignal = 2 + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) TCU releases StartAcCommand wake lock on successful AC turn ON + +Expected Output: +1) Verify that TCU is starting an AcOnTimer with SetTimer Par_AcOnDuration value internally +2)Verify that TCU is awake till the AC operation is completed (i.e. AcOnTimer is running). +3) Verify TCU_NMPDU messages over CAN till TCU goes to sleep state. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Check for ComfortState = 0 and + CabinCoolingSVSignal = 2 +2) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) + +Expected Output: +1) Verify that TCU sends failure vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Check for ComfortState = 0 and + CabinCoolingSVSignal = 0 +3) Verify that TCU sends AcOffEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App + + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2) Check for ComfortState = 1 and + CabinCoolingSVSignal = 2 +2) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App + + +Expected Output: +1) Verify that TCU sends successful vehicle AC ON response (Response of StartAcCommand) to cloud as per TMCVP document. +2)Check for ComfortState = 1 and + CabinCoolingSVSignal = 0 +3) Verify that TCU sends AcOnEvent to cloud as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) TCU releases StartAcCommand wake lock on successful AC turn ON + +Expected Output: +1) Verify that TCU is starting an AcOnTimer value internally +2)Verify that TCU is awake till the AC operation is completed (i.e. AcOnTimer is running). +3) Verify TCU_NMPDU messages over CAN till TCU goes to sleep state. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) TCU reads ComfortState +5) "SetTemp" OR "RemoteAcTempSet" is reached + +Expected Output: +1)Verify that FATC is publishing ComfortState=1 over CAN + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) TCU reads ComfortState +5) "SetTemp" OR "RemoteAcTempSet" is not reached + +Expected Output: +1)Verify that FATC is publishing ComfortState=0 over CAN + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) "SetTemp" OR "RemoteAcTempSet" is reached + +Expected Output: +1)Verify that FATC is publishing ComfortState=1 over CAN + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads Comfort State information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) "SetTemp" OR "RemoteAcTempSet" is not reached + +Expected Output: +1)Verify that FATC is publishing ComfortState=0 over CAN + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AC off request to FATC + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) After SetTimer Expires + +Expected Output: +TCU publishes to FATC : +1)Verify that RemoteAcCmd=0 CAN +2) Verify RemoteAcCmdStatus=0 over CAN + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AC off request to FATC + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) After SetTimer Expires + +Expected Output: +TCU publishes to FATC : +1)Verify that RemoteAcCmd=0 in 1EF message over CAN +2) Verify RemoteAcCmdStatus=0 over CAN +3) AC should be turned OFF + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AC off request to FATC + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) User also changes temp from mobile app +4) After AcOnTimer expires +5)RemoteAcCmd=0 + +Expected Output: +1) Verify that FATC publishes AcoffReq over CAN to VCU +2) Verify ComfortStatus=0 over CAN + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU is sending AC off request to FATC + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is OFF (Powermode state=0) +2) User sends Turn ON AC request from mobile App +3) After AcOnTimer expires + + +Expected Output: +1) Verify that FATC publishes AcReqNew=0 over CAN to VCU +2) Verify ComfortStatus=0 over CAN + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives ComfortStatus from FATC and CabinCoolingSVSignal from VCU + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is ON (powermode=6) +2) User sends Turn ON AC request from mobile App and also changes temp from mobile app +3) Simulate ComfortStatus = 1 and +CabinCoolingSVSignal = 0 on CAN + +Expected Output: +1) Verify that TCU is sending AcOnEvent to Cloud. + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is receiving Turn AC OFF request from App. + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON +4) TCU is in sleep mode + +Test Procedure: +1) IGN is OFF(powermode state=0) +2) User Turn off the AC from the mobile App +3) Cloud receives AC turn off request from App + + +Expected Output: +1) Verify that Cloud is waking up TCU by sending SMS +2)Verify that Cloud is creating StopAcCommand payload +3) Verify that Cloud is sending StopAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads E compressor information + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) User sends Turn ON AC request from mobile App +2) After AcOnTimer expires +3) FATC publishes AcoffReq over CAN to VCU + + +Expected Output: +1) Verify that after reading E-Compressor status VCU publishes: +CabinCoolingSVSignal=0 +CabinCoolingSVSignalStatus=0 on CAN +2) TCU will send AcOffEvent to cloud as per TMCVP via GSM/GPRS communication. + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives ComfortStatus from FATC and CabinCoolingSVSignal from VCU + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is ON (powermode=6) +2) User sends Turn ON AC request from mobile App and also changes temp from mobile app +3) TCU reads the : +a) ComfortStatus from FATC +b) CabinCoolingSVSignal from VCU +4) ComfortStatus = 1 and +CabinCoolingSVSignal = 0 + +Expected Output: +1) Verify that TCU is sending AcOnEvent to Cloud. + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is receiving Turn AC OFF request from App. + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON +4) TCU is in sleep mode + +Test Procedure: +1) IGN is OFF(powermode state=0) +2) User Turn off the AC from the mobile App +3) Cloud receives AC turn off request from App + + +Expected Output: +1) Verify that Cloud is waking up TCU by sending SMS +2)Verify that Cloud is creating StopAcCommand payload +3) Verify that Cloud is sending StopAcCommand to TCU + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU reads E compressor information + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) User sends Turn ON AC request from mobile App +2) After AcOnTimer expires +3) FATC publishes AcReqNew=0 over CAN to VCU + + +Expected Output: +1) Verify that after reading E-Compressor status VCU publishes: +CabinCoolingSVSignal=0 +CabinCoolingSVSignalStatus=0 on CAN +2) TCU will send AcOffEvent to cloud. + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives ComfortStatus from FATC and CabinCoolingSVSignal from VCU + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. + + +Test Procedure: +1) IGN is ON (powermode=6) +2) User sends Turn ON AC request from mobile App +3) TCU reads the : +a) ComfortStatus from FATC +b) CabinCoolingSVSignal from VCU +4) ComfortStatus = 0 and +CabinCoolingSVSignal = 2 + +Expected Output: +1) Verify that TCU is sending AcOnEvent to Cloud. + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) Cloud is receiving Turn AC OFF request from App. + +Pre-condition: +1) vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON +4) TCU is in sleep mode + +Test Procedure: +1) IGN is OFF(powermode state=0) +2) AC is already ON +3) User Turn off the AC from the mobile App + + + +Expected Output: +1)Verify that Mobile app is waking up TCU by sending SMS +2)Verify TCU_NMPDU publishes on Vehicle CAN +3) Verify TCU publishes TelematicsEventMsg_RC4 (1EF) with RemoteAcCmd=0. +4) Verify FATC published CCM_RC1 with AcReqNew=0 on CAN and turn off the blower. +5) Verify the VCU publishes VCU8_RC with CabinCoolingSolValveState=0 and turn off the compressor. +6) TCU sends success response for Remote AC OFF command to Cloud. +7) Verify that TCU export AC OFF event to cloud. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives AC off information from Cloud + +Pre-condition: +1) Vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) IGN is ON(powermode state=6) +2) User Turn off the AC from the mobile App +3) TCU receives AC off information from Cloud + +Expected Output: +1) Verify that TCU should ignore the StopAcCommand to turn off the AC. + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU receives AC off information from Cloud + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) IGN is OFF(powermode state=0) +2) User Turn off the AC from the mobile App +3) Cloud receives AC turn off request from App +4) TCU receives StopAcCommand from Cloud + + +Expected Output: +1)Verify that TCU Set StopAcCommand WakeLock with timer Par_StopAcCommandWakeLock +2)Verify that RemoteAcCmd=0 +3)Verify that RemoteAcCmdStatus=0 +4) Verify that TCU exports the RemoteAcCmd=0 signal to cloud platform + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) FATC and VCU communication + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) FATC reads RemoteAcCmd on CAN : +RemoteAcCmd=0 +RemoteAcCmdStatus=0 + +Expected Output: +1) Verify that FATC should send AcOffReq signals to VCU + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) FATC and VCU communication + +Pre-condition: +1) vehicle is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) FATC reads RemoteAcCmd on CAN : +RemoteAcCmd=0 +RemoteAcCmdStatus=0 + +Expected Output: +1) Verify that FATC should send AcReqNew=0 signals to VCU + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU sends AC OFF response + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) Cloud receives AC turn off request from App +3)TCU sends AC OFF response +4) CabinCoolingSVSignal=0 + +Expected Output: +1) Verify that TCU sends successful vehicle AC OFF response (Response of StopAcCommand) to Cloud. +2) Verify that TCU sends AcOffEvent to cloud as per TMCVP. +3) Verify that TCU releases StopAcCommand wake lock if successful Ac turn OFF or Par_StopAcCommandWakeLock expires (whichever is earlier). + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) TCU sends AC OFF response + +Pre-condition: +1) Rig is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) Cloud receives AC turn off request from App +3)TCU sends AC OFF response +4) CabinCoolingSVSignal=2 + +Expected Output: +1) Verify that TCU sends unsuccessful vehicle AC OFF response (Response of StopAcCommand) to Cloud. + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state. +2) VCU is turning OFF E-compressor + +Pre-condition: +1) Labcar is equipped with TCU and a functioning SIM. +2) Phone and TCU SIM cards have sufficient network strength. +3) AC is already ON + + +Test Procedure: +1) User Turn off the AC from the mobile App +2) VCU receives AcOffReq from FATC. + +Expected Output: +1) E compressor should be turned off +2) Verify CabinCoolingSVSignal=0 over CAN +3) Verify CabinCoolingSVSignalStatus=0 over CAN + +======================================== + +======================================== + +======================================== + +Test Description: +Test case to verify TCM presence, HU presence and feature presence + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in IGN OFF + +Test Procedure: +1. Turn ON vehicle IGN + + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.TcmPresence=1 with periodicity of 100ms +2.HuPresence=1 with periodicity of 100ms +3.ShareMyLocationFeaturePresence=1 with periodicity of 100ms +4. GsmSignalType with periodicity of 500ms +5. GsmSignalStrength with periodicity of 500ms +6. GSmSignalStatus with periodicity of 500ms +7. GPsInfoX with periodicity of 500ms +8. GPsInfoY with periodicity of 500ms +9. GPsInfoXYZStatus with periodicity of 500ms + +Note: Gsm and Gps related signal's value may vary with network and location respectively. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share current location request from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Select the recipient number from phonebook. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number selected while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared current location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared current location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared current location has displayed in browser / connected Car app. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share current location request has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Make a manual entry of recipient phone number from dial pad. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared current location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared current location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared current location has displayed in browser / connected Car app. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share current location request in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Select the recipient number from phonebook. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 15 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 15 mins) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 15 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 30 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 30 mins) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 30 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 1 Hr) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 1 Hr) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 1 Hr) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 2 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 2 Hrs) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 2 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 5 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 5 Hrs) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 5 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM presence, HU presence and feature presence + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in IGN OFF + +Test Procedure: +1. Turn ON vehicle IGN +2. Put vehicle in Engine RUN mode + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.TcmPresence=1 with periodicity of 100ms +2.HuPresence=1 with periodicity of 100ms +3.ShareMyLocationFeaturePresence=1 with periodicity of 100ms +4. GsmSignalType with periodicity of 500ms +5. GsmSignalStrength with periodicity of 500ms +6. GSmSignalStatus with periodicity of 500ms +7. GPsInfoX with periodicity of 500ms +8. GPsInfoY with periodicity of 500ms +9. GPsInfoXYZStatus with periodicity of 500ms + +Note: Gsm and Gps related signals value may vary with network and location respectively. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share current location request from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Select the recipient number from phonebook. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number selected while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared current location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared current location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared current location has displayed in browser / connected Car app. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share current location request has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Make a manual entry of recipient phone number from dial pad. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared current location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared current location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared current location has displayed in browser / connected Car app. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share current location request in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Select the recipient number from phonebook. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 15 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 15 mins) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 15 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 30 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 30 mins) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 30 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 1 Hr) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 1 Hr) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 1 Hr) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 2 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 2 Hrs) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 2 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 5 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 5 Hrs) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 5 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle is in Engine RUN mode +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM presence, HU presence and feature presence + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN OFF + +Test Procedure: +1. Set HuPresence = 1 (periodicity 100ms) +2. Turn ON IGN +3. Set PowerModeState=6 + + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.TcmPresence=0 with periodicity of 100ms +2.HuPresence=1 with periodicity of 100ms +3.ShareMyLocationFeaturePresence=1 with periodicity of 100ms +4. GsmSignalType with periodicity of 500ms +5. GsmSignalStrength with periodicity of 500ms +6. GSmSignalStatus with periodicity of 500ms +7. GPsInfoX with periodicity of 500ms +8. GPsInfoY with periodicity of 500ms +9. GPsInfoXYZStatus with periodicity of 500ms + +Note: Gsm and Gps related signal's value may vary with network and location respectively. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share current location request from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON, +Set PowerModeState=6 +4) TCM and HU are present over CAN and share my location feature is enabled + + +Test Procedure: +1. Initiate share current location request, + Set SharedLocationReq=1 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=0 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared current location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared current location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared current location has displayed in browser / connected Car app. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share current location request in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, +Set PowerModeState=6 +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share current location request, + Set SharedLocationReq=1 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=0 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 15 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card has sufficient network strength +3) TCM is in IGN ON, +Set PowerModeState=6 +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=1 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 15 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, +Set PowerModeState=6 +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=1 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo=Number provided while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 30 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card has sufficient network strength +3) TCM is in IGN ON, +Set PowerModeState=6 +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=2 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 30 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=6 +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=2 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 1 Hr) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON, +Set PowerModeState=6 +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=3 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 1 Hr) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=6 +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=3 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 2 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=6 +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share current location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=4 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 2 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=6 +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=4 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 5 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON, +Set PowerModeState=6 +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=5 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 5 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=6 +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=5 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM presence, HU presence and feature presence + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN OFF + +Test Procedure: +1. Set HuPresence = 1 (periodicity 100ms) +2. Turn ON IGN +3. Set PowerModeState=9 (CRANK) + + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.TcmPresence=0 with periodicity of 100ms +2.HuPresence=1 with periodicity of 100ms +3.ShareMyLocationFeaturePresence=1 with periodicity of 100ms +4. GsmSignalType with periodicity of 500ms +5. GsmSignalStrength with periodicity of 500ms +6. GSmSignalStatus with periodicity of 500ms +7. GPsInfoX with periodicity of 500ms +8. GPsInfoY with periodicity of 500ms +9. GPsInfoXYZStatus with periodicity of 500ms + +Note: Gsm and Gps related signal's value may vary with network and location respectively. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share current location request from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON, +Set PowerModeState=9 (CRANK) +4) TCM and HU are present over CAN and share my location feature is enabled + + +Test Procedure: +1. Initiate share current location request, + Set SharedLocationReq=1 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=0 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared current location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared current location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared current location has displayed in browser / connected Car app. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share current location request in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, +Set PowerModeState=9 (CRANK) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share current location request, + Set SharedLocationReq=1 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=0 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 15 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card has sufficient network strength +3) TCM is in IGN ON, +Set PowerModeState=9 (CRANK) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=1 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 15 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, +Set PowerModeState=9 (CRANK) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=1 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo=Number provided while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 30 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card has sufficient network strength +3) TCM is in IGN ON, +Set PowerModeState=9 (CRANK) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=2 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 30 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=9 (CRANK) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=2 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 1 Hr) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON, +Set PowerModeState=9 (CRANK) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=3 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 1 Hr) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=9 (CRANK) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=3 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 2 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=9 (CRANK) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=4 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 2 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=9 (CRANK) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=4 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 5 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON, +Set PowerModeState=9 (CRANK) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=5 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 5 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=9 (CRANK) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=5 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM presence, HU presence and feature presence + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN OFF + +Test Procedure: +1. Set HuPresence = 1 (periodicity 100ms) +2. Turn ON IGN +3. Set PowerModeState=8 (Engine RUN) + + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.TcmPresence=1 with periodicity of 100ms +2.HuPresence=1 with periodicity of 100ms +3.ShareMyLocationFeaturePresence=1 with periodicity of 100ms +4. GsmSignalType with periodicity of 500ms +5. GsmSignalStrength with periodicity of 500ms +6. GSmSignalStatus with periodicity of 500ms +7. GPsInfoX with periodicity of 500ms +8. GPsInfoY with periodicity of 500ms +9. GPsInfoXYZStatus with periodicity of 500ms + +Note: Gsm and Gps related signal's value may vary with network and location respectively. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share current location request from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=8 (Engine RUN) +4) TCM and HU are present over CAN and share my location feature is enabled + + +Test Procedure: +1. Initiate share current location request, + Set SharedLocationReq=1 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=0 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared current location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared current location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared current location has displayed in browser / connected Car app. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share current location request in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=8 (Engine RUN) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share current location request, + Set SharedLocationReq=1 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=0 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 15 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card has sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=8 (Engine RUN) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live ocation request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=1 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 15 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=8 (Engine RUN) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=1 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo=Number provided while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 30 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card has sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=8 (Engine RUN) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=2 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 30 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=8 (Engine RUN) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=2 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 1 Hr) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=8 (Engine RUN) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=3 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 1 Hr) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=8 (Engine RUN) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=3 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 2 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=6 +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=4 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 2 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=8 (Engine RUN) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=4 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 5 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=8 (Engine RUN) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=5 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 5 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON, + Set PowerModeState=8 (Engine RUN) +4) TCM and HU are present over CAN and share my location feature is enabled + +Test Procedure: +1. Initiate share live location request, + Set SharedLocationReq=2 + Set ReceiverContactNo= recipient no. + Set SharingTimeDuration=5 + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number provided while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM presence, HU presence and feature presence + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN OFF + +Test Procedure: +1. Turn ON IGN + + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.TcmPresence=1 with periodicity of 100ms +2.HuPresence=1 with periodicity of 100ms +3.ShareMyLocationFeaturePresence=1 with periodicity of 100ms +4. GsmSignalType with periodicity of 500ms +5. GsmSignalStrength with periodicity of 500ms +6. GSmSignalStatus with periodicity of 500ms +7. GPsInfoX with periodicity of 500ms +8. GPsInfoY with periodicity of 500ms +9. GPsInfoXYZStatus with periodicity of 500ms + +Note: Gsm and Gps related signal's value may vary with network and location respectively. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share current location request from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Select the recipient number from phonebook. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number selected while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared current location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared current location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared current location has displayed in browser / connected Car app. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share current location request has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Make a manual entry of recipient phone number from dial pad. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared current location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared current location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared current location has displayed in browser / connected Car app. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share current location request in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Select the recipient number from phonebook. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 15 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 15 mins) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 15 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 30 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 30 mins) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 30 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 1 Hr) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 1 Hr) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 1 Hr) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 2 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 2 Hrs) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 2 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 5 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3)TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 5 Hrs) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 5 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) TCM is in IGN ON +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM presence, HU presence and feature presence + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN OFF + +Test Procedure: +1. Turn ON IGN +2. Make Vehicle power mode as CRANK + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.TcmPresence=1 with periodicity of 100ms +2.HuPresence=1 with periodicity of 100ms +3.ShareMyLocationFeaturePresence=1 with periodicity of 100ms +4. GsmSignalType with periodicity of 500ms +5. GsmSignalStrength with periodicity of 500ms +6. GSmSignalStatus with periodicity of 500ms +7. GPsInfoX with periodicity of 500ms +8. GPsInfoX with periodicity of 500ms +9. GPsInfoXYZStatus with periodicity of 500ms + +Note: Gsm and Gps related signals value may vary with network and location respectively. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share current location request from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Select the recipient number from phonebook. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number selected while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared current location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared current location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared current location has displayed in browser / connected Car app. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share current location request has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Make a manual entry of recipient phone number from dial pad. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared current location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared current location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared current location has displayed in browser / connected Car app. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share current location request in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Select the recipient number from phonebook. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 15 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 15 mins) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 15 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 30 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 30 mins) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 30 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 1 Hr) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 1 Hr) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 1 Hr) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 2 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 2 Hrs) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 2 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 5 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 5 Hrs) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 5 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle power mode is CRANK +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM presence, HU presence and feature presence + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) TCM is in IGN OFF + +Test Procedure: +1. Turn ON IGN +2. Vehicle power mode is RUN, + Set PowerModeState=8 (Engine RUN) + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.TcmPresence=1 with periodicity of 100ms +2.HuPresence=1 with periodicity of 100ms +3.ShareMyLocationFeaturePresence=1 with periodicity of 100ms +4. GsmSignalType with periodicity of 500ms +5. GsmSignalStrength with periodicity of 500ms +6. GSmSignalStatus with periodicity of 500ms +7. GPsInfoX with periodicity of 500ms +8. GPsInfoY with periodicity of 500ms +9. GPsInfoXYZStatus with periodicity of 500ms + +Note: Gsm and Gps related signals value may vary with network and location respectively. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share current location request from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Select the recipient number from phonebook. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Number selected while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared current location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared current location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared current location has displayed in browser / connected Car app. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share current location request has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Make a manual entry of recipient phone number from dial pad. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared current location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared current location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared current location has displayed in browser / connected Car app. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share current location request in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share current location request via infotainment HMI +2. Accept terms and conditions. +3. Select the recipient number from phonebook. +4. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=1 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=0 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 15 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 15 mins) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 15 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 15 mins +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=1 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 30 mins) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 30 mins) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 30 mins) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 30 mins +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=2 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 1 Hr) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 1 Hr) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 1 Hr) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 1 Hr +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=3 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 2 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 2 Hrs) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 2 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 2 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=4 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior after receiving share live location request(for 5 Hrs) from Infotainment + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior when share live location request(for 5 Hrs) has received for manual entry of recipient phone number from dial pad + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are not synced and downloaded over Bluetooth with Infotainment + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Make a manual entry of recipient phone number from dial pad. +5. Confirm and send share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Manual entry from dial pad while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=1 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has occurred +2.Check telemetry data is getting updated in every 5 sec on cloud platform. + +======================================== + +======================================== + +Test Description: +Test case to verify CVP platforms response for shared live location request on recipient user's Smartphone + +Pre-condition: +In continuation with above test case, +1) Recipient User has Smartphone +2) CVP platform has shared live location information via SMS URL to recipient user's Smartphone + + +Test Procedure: +1.Click on URL + +Expected Output: +1. Verify on recipient user's Smartphone that the shared live location has displayed in browser/connected Car app with live tracking data for defined time duration. + + +======================================== + +======================================== + +Test Description: +Test case to verify TCM behavior for share live location request(for 5 Hrs) in no network condition + +Pre-condition: +1) TCM with a functioning SIM +2) TCM SIM card does not have sufficient network strength +3) Vehicle power mode is RUN +4) TCM and HU are present and share my location feature is enabled +5)Contacts from phone book are already synced and downloaded in Infotainment over Bluetooth + +Test Procedure: +1. Initiate share live location request via infotainment HMI +2. Accept terms and conditions. +3. Configure sharing time duration as 5 Hrs +4. Select the recipient number from phonebook. +5. Confirm and send Share location request + +Expected Output: +Verify that TCM has transmitted below signals on CAN, +1.SharedLocationReq=2 +2.ReceiverContactNo= Selected while raising request +3.SharingTimeDuration=5 +4. SharedLocationReqAck=3 in less than 5000ms + +Verify on CVP platform, +1.'ShareCarLocationEvent' has not occurred + +Verify on recipient Smartphone that no any SMS URL has received regarding share location request. + +======================================== + +======================================== + +======================================== + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall export Vehicle Health packet to cloud during Ignition ON state + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Check the TCU in wake up mode +3 TCU receives health check request (RemoteVehicleHealthRefreshCommand) from Cloud + +Expected Output: + I Verify the TCU is in wake up mode or TCU wakes up after receiving the Wake-up SMS from app +II Verify the TCU receives health check request "RemoteVehicleHealthRefreshCommand" from Cloud +III Verify the TCU Wake-up the diagnostics CAN by publishing NM_PDU messages +IV Verify the TCU send a packet of Health data as per TMCVP +V Verify the TCU send "RemoteVehicleHealthRefreshCommandResponse" And after that go in to sleep mode + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall monitor the battery voltage level and send to cloud as part of Health package + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +VehicleBatteryVoltage = 12 V +3 Verify Cloud details after 1 min + +Expected Output: + I Verify the following details in the Cloud: + a Health Record Element - VehicleBatteryLevel = 12 + + +II Verify the Battery Voltage Level is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall monitor the battery voltage level and send to cloud as part of Health package + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +VehicleBatteryVoltage = 260 V +3 Verify Cloud details after 1 min + +Expected Output: + I Verify the following details in the Cloud: + a Health Record Element - VehicleBatteryLevel = 251 + + +II Verify the Battery Voltage Level is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall monitor the battery voltage level and send to cloud as part of Health package + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +VehicleBatteryVoltage = 20 V +3 Verify Cloud details after 1 min + +Expected Output: + I Verify the following details in the Cloud: + a Health Record Element - VehicleBatteryLevel = 20 + + +II Verify the Battery Voltage Level is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (km) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from IPC +IcHuServReminderKm = 300 + +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element - Next Service due KM =300km + +II Verify the Service reminder (km) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (km) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from IPC +IcHuServReminderKm = 20000 + +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element - Next Service due KM =300km + +II Verify the Service reminder (km) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (km) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from IPC +IcHuServReminderKm = 0 + +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element - Next Service due KM =0km + +II Verify the Service reminder (km) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in kms) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +IcHuServReminderKm = 16385 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element- Next Service due KM =16384km + +II Verify the Service reminder (km) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in kms) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +IcHuServReminderKm = 60 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element- Next Service due KM =60 km + +II Verify the Service reminder (km) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in kms) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +IcHuServReminderKm = 18000 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element- Next Service due KM =16384 km + +II Verify the Service reminder (km) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 0 (Signal range: 0 to 511) + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element- Next Service due Days =0 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 1000 (Signal range: 0 to 511) + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element- Next Service due Days =512 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 511 +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element - Next Service due Days =511 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 600 +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element - Next Service due Days =512 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 20 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days =20 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 1000 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days =512 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +IcHuServReminderDays = 255 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days =255 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +IcHuServReminderDays = 500 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days =512 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +IcHuServReminderDays = 255 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days =255 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +IcHuServReminderDays = 500 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days =512 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 0 +IcHuServReminderDays = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days = 0 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 0 +IcHuServReminderDays = 140 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days = 140 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 120 +IcHuServReminderDays = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days = 120 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is Awake + +Test Procedure: +1 Set the Power Mode as Actice +Powermode state = 6 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 120 +IcHuServReminderDays = 20 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: +a Health Record Element - Next Service due Days = 120 + +III Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 0 +IcHuServReminderDays = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days = 0 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 0 +IcHuServReminderDays = 140 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days = 140 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 120 +IcHuServReminderDays = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days = 120 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is Awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 120 +IcHuServReminderDays = 20 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: +a Health Record Element - Next Service due Days = 120 + +III Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 0 +IcHuServReminderDays = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days = 0 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 0 +IcHuServReminderDays = 140 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days = 140 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 120 +IcHuServReminderDays = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days = 120 + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Service reminder (in days) from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is Awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +IcHuServReminderDaysfull = 120 +IcHuServReminderDays = 20 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: +a Health Record Element - Next Service due Days = 120 + +III Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +NextServDueAlert = 0 +NextServDueAlertStatus = 2 +3 Verify Cloud details after 50 sec + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element- NextServiceDueWarningFlag = 0 + +II Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +NextServDueAlert = 1 +NextServDueAlertStatus = 0 +3 Verify Cloud details after 50 sec + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - NextServiceDueWarningFlag = 4 +II Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +NextServDueAlert = 1 +NextServDueAlertStatus = 2 +3 Verify Cloud details after 50 sec + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - NextServiceDueWarningFlag = 1 +II Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +NextServDueAlert = 15 +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - NextServiceDueWarningFlag =4 + +II Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +NextServDueAlert = 0 +NextServDueAlertStatus = 2 +3 Verify Cloud details after 50 sec + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element- NextServiceDueWarningFlag = 0 + +II Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +NextServDueAlert = 1 +NextServDueAlertStatus = 0 +3 Verify Cloud details after 50 sec + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - NextServiceDueWarningFlag = 4 +II Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +NextServDueAlert = 1 +NextServDueAlertStatus = 2 +3 Verify Cloud details after 50 sec + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - NextServiceDueWarningFlag = 1 +II Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +NextServDueAlert = 15 +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - NextServiceDueWarningFlag =4 + +II Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +NextServDueAlert = 0 +NextServDueAlertStatus = 2 +3 Verify Cloud details after 50 sec + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element- NextServiceDueWarningFlag = 0 + +II Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +NextServDueAlert = 1 +NextServDueAlertStatus = 0 +3 Verify Cloud details after 50 sec + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - NextServiceDueWarningFlag = 4 +II Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +NextServDueAlert = 1 +NextServDueAlertStatus = 2 +3 Verify Cloud details after 50 sec + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - NextServiceDueWarningFlag = 1 +II Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +NextServDueAlert = 15 +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - NextServiceDueWarningFlag =4 + +II Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 seconds +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +HazardLampState = 0 +HazardLampStateStatus = 2 +3 Verify Cloud details after 50 seconds + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 4 + + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 seconds +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +HazardLampState = 0 +HazardLampStateStatus = 0 +3 Verify Cloud details after 50 seconds + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 0 + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +2 Set the Below signals from BCM +HazardLampState = 6 +HazardLampStateStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 1 + + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +HazardLampState = 0 +HazardLampStateStatus = 2 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 2 + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +HazardLampState = 15 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 4 + + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +HazardLampStateStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 4 + + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 seconds +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +HazardLampState = 0 +HazardLampStateStatus = 2 +3 Verify Cloud details after 50 seconds + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 4 + + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 seconds +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +HazardLampState = 0 +HazardLampStateStatus = 0 +3 Verify Cloud details after 50 seconds + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 0 + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +HazardLampState = 1 +HazardLampStateStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 1 + + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +HazardLampState = 0 +HazardLampStateStatus = 2 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 2 + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +HazardLampState = 15 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 4 + + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +HazardLampStateStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 4 + + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 seconds +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +HazardLampState = 0 +HazardLampStateStatus = 2 +3 Verify Cloud details after 50 seconds + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 4 + + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 50 seconds +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +HazardLampState = 0 +HazardLampStateStatus = 0 +3 Verify Cloud details after 50 seconds + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 0 + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +HazardLampState = 1 +HazardLampStateStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 1 + + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +HazardLampState = 0 +HazardLampStateStatus = 2 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 2 + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +HazardLampState = 15 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 4 + + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +HazardLampStateStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag = 4 + + +II Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM + PositionLmpTelltale = 0 + PositionLmpTelltaleStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 0 +II Verify the Position Lamp status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM + PositionLmpTelltale = 0 + PositionLmpTelltaleStatus = 3 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 4 + +II Verify the Position Lamp status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from BCM + PositionLmpTelltale = 1 + PositionLmpTelltaleStatus = 0 + +3 Verify Cloud details after 2 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 1 + +II Verify the Position Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from BCM + PositionLmpTelltale = 1 + PositionLmpTelltaleStatus = 3 + +3 Verify Cloud details after 2 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 4 + +II Verify the Position Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from BCM + PositionLmpTelltale =15 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 4 + + +II Verify the Position Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM + PositionLmpTelltale = 0 + PositionLmpTelltaleStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 0 +II Verify the Position Lamp status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM + PositionLmpTelltale = 0 + PositionLmpTelltaleStatus = 3 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 4 + +II Verify the Position Lamp status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM + PositionLmpTelltale = 1 + PositionLmpTelltaleStatus = 0 + +3 Verify Cloud details after 2 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 1 + +II Verify the Position Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM + PositionLmpTelltale = 1 + PositionLmpTelltaleStatus = 3 + +3 Verify Cloud details after 2 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 4 + +II Verify the Position Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM + PositionLmpTelltale =15 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 4 + + +II Verify the Position Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM + PositionLmpTelltale = 0 + PositionLmpTelltaleStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 0 +II Verify the Position Lamp status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM + PositionLmpTelltale = 0 + PositionLmpTelltaleStatus = 3 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 4 + +II Verify the Position Lamp status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM + PositionLmpTelltale = 1 + PositionLmpTelltaleStatus = 0 + +3 Verify Cloud details after 2 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 1 + +II Verify the Position Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM + PositionLmpTelltale = 1 + PositionLmpTelltaleStatus = 3 + +3 Verify Cloud details after 2 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 4 + +II Verify the Position Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM + PositionLmpTelltale =15 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag = 4 + + +II Verify the Position Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +VehicleLockState = 1 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 0 + + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +VehicleLockState = 1 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 4 + + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +VehicleLockState = 2 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 0 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +VehicleLockState = 2 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState=4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +VehicleLockState = 3 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 1 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +VehicleLockState = 3 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState= 4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 58 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +VehicleLockState = 4 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 58sec + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 1 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 58 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Start Active +Powermode state = 6 +2 Set the Below signals from BCM +VehicleLockState = 4 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 58sec + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +VehicleLockState = 6 (TCU locked) +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 0 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM +VehicleLockState = 6 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM +VehicleLockState = 7 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 2 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 1 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM +VehicleLockState = 7 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 2 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +VehicleLockState = 1 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 0 + + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +VehicleLockState = 1 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 4 + + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +VehicleLockState = 2 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 0 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +VehicleLockState = 2 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState=4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +VehicleLockState = 3 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 1 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +VehicleLockState = 3 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState= 4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 58 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +VehicleLockState = 4 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 58sec + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 1 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 58 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +VehicleLockState = 4 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 58sec + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +VehicleLockState = 6 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 0 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +VehicleLockState = 6 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +VehicleLockState = 7 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 2 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 1 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +VehicleLockState = 7 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 2 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +VehicleLockState = 1 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 0 + + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +VehicleLockState = 1 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 4 + + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +VehicleLockState = 2 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 0 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +VehicleLockState = 2 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState=4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +VehicleLockState = 3 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 1 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +VehicleLockState = 3 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState= 4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 58 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +VehicleLockState = 4 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 58sec + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 1 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 58 sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Start Crank +Powermode state = 9 +2 Set the Below signals from BCM +VehicleLockState = 4 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 58sec + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +VehicleLockState = 6 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 0 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +VehicleLockState = 6 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +VehicleLockState = 7 +VehicleLockStateStatus = 0 + +3 Verify Cloud details after 2 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 1 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +VehicleLockState = 7 +VehicleLockStateStatus = 2 + +3 Verify Cloud details after 2 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState = 4 + +II Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +DoorStateDrvr = 0 +DoorStateDrvrStatus = 0 +3 Verify Cloud details after 1 mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag = 0 + +II Verify the Door status is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +DoorStateDrvr = 0 (Close) +DoorStateDrvrStatus = 3 +3 Verify Cloud details after 1 mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM +DoorStateDrvr = 1 (open) +DoorStateDrvrStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag = 1 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM +DoorStateDrvr = 1 (open) +DoorStateDrvrStatus = 3 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorStateDrvr = 0 +DoorStateDrvrStatus = 0 +3 Verify Cloud details after 1 mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag = 0 + +II Verify the Door status is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorStateDrvr = 0 (Close) +DoorStateDrvrStatus = 3 +3 Verify Cloud details after 1 mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorStateDrvr = 1 (open) +DoorStateDrvrStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag = 1 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorStateDrvr = 1 (open) +DoorStateDrvrStatus = 3 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorStateDrvr = 0 +DoorStateDrvrStatus = 0 +3 Verify Cloud details after 1 mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag = 0 + +II Verify the Door status is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorStateDrvr = 0 (Close) +DoorStateDrvrStatus = 3 +3 Verify Cloud details after 1 mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorStateDrvr = 1 (open) +DoorStateDrvrStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag = 1 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorStateDrvr = 1 (open) +DoorStateDrvrStatus = 3 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 Mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +DoorStatePass = 0 (Close) +DoorStatePassStatus = 0 +3 Verify Cloud details after 1 Mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftFrontDoorOpenFlag= 0 +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 Mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +DoorStatePass = 0 (Close) +DoorStatePassStatus = 3 +3 Verify Cloud details after 1 Mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftFrontDoorOpenFlag = 4 +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 41 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +DoorStatePass = 1 (Open) +DoorStatePassStatus = 0 +3 Verify Cloud details after 41 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftFrontDoorOpenFlag= 1 +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 41 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +DoorStatePass = 1 (Open) +DoorStatePassStatus = 3 +3 Verify Cloud details after 41 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftFrontDoorOpenFlag = 4 +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 41 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorStatePass = 0 +DoorStatePassStatus = 0 +3 Verify Cloud details after 41 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftFrontDoorOpenFlag = 0 +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 41 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from BCM +DoorStatePass = 0 +DoorStatePassStatus = 3 +3 Verify Cloud details after 41 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftFrontDoorOpenFlag = 4 +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 41 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorStatePass = 1 +DoorStatePassStatus = 0 +3 Verify Cloud details after 41 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftFrontDoorOpenFlag = 1 +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 41 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from BCM +DoorStatePass = 1 +DoorStatePassStatus = 3 +3 Verify Cloud details after 41 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftFrontDoorOpenFlag = 4 +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 41 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorStatePass = 0 +DoorStatePassStatus = 0 +3 Verify Cloud details after 41 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftFrontDoorOpenFlag = 0 +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 41 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorStatePass = 0 +DoorStatePassStatus = 3 +3 Verify Cloud details after 41 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftFrontDoorOpenFlag = 4 +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 41 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorStatePass = 1 +DoorStatePassStatus = 0 +3 Verify Cloud details after 41 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftFrontDoorOpenFlag = 1 +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 41 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorStatePass = 1 +DoorStatePassStatus = 3 +3 Verify Cloud details after 41 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftFrontDoorOpenFlag = 4 +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 10 Sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +DoorstaterearRH = 0 +DoorStateRearRHStatus = 0 +3 Verify Cloud details after 10 Sec + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 0 +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 10 Sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +DoorstaterearRH = 0 +DoorStateRearRHStatus = 3 +3 Verify Cloud details after 10 Sec + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +DoorstaterearRH = 1 (Open) +DoorStateRearRHStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 1 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM +DoorstaterearRH = 1 (Open) +DoorStateRearRHStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM + +DoorStateRearRHStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 10 Sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorstaterearRH = 0 +DoorStateRearRHStatus = 0 +3 Verify Cloud details after 10 Sec + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 0 +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 10 Sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorstaterearRH = 0 +DoorStateRearRHStatus = 3 +3 Verify Cloud details after 10 Sec + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorstaterearRH = 1 (Open) +DoorStateRearRHStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 1 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorstaterearRH = 1 (Open) +DoorStateRearRHStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM + +DoorStateRearRHStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 10 Sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorstaterearRH = 0 +DoorStateRearRHStatus = 0 +3 Verify Cloud details after 10 Sec + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 0 +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 10 Sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorstaterearRH = 0 +DoorStateRearRHStatus = 3 +3 Verify Cloud details after 10 Sec + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorstaterearRH = 1 (Open) +DoorStateRearRHStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 1 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorstaterearRH = 1 (Open) +DoorStateRearRHStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM + +DoorStateRearRHStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 10 Sec +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorstaterearRH = 0 +DoorStateRearRHStatus = 3 +3 Verify Cloud details after 10 Sec + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorstaterearRH = 1 (Open) +DoorStateRearRHStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 1 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorstaterearRH = 1 (Open) +DoorStateRearRHStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM + +DoorStateRearRHStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +DoorstaterearLH =0 +DoorstaterearLHStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag =0 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +DoorstaterearLH = 0 +DoorstaterearLHStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +DoorstaterearLH = 1 +DoorstaterearLHStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag = 1 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +DoorstaterearLH = 1 +DoorstaterearLHStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 4 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +DoorstaterearLH = 4 + +3 Verify Cloud details after 4 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorstaterearLH =0 +DoorstaterearLHStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag =0 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorstaterearLH = 0 +DoorstaterearLHStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorstaterearLH = 1 +DoorstaterearLHStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag = 1 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorstaterearLH = 1 +DoorstaterearLHStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 4 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +DoorstaterearLH = 4 + +3 Verify Cloud details after 4 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorstaterearLH =0 +DoorstaterearLHStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag =0 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorstaterearLH = 0 +DoorstaterearLHStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorstaterearLH = 1 +DoorstaterearLHStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag = 1 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorstaterearLH = 1 +DoorstaterearLHStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 4 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +DoorstaterearLH = 4 + +3 Verify Cloud details after 4 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LeftRearDoorOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +TailgateState = 0 +TailgateStateStatus = 0 +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag = 0 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +TailgateState = 0 (close) +TailgateStateStatus = 3 +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM +TailgateState = 1 +TailgateStateStatus = 0 +3 Verify Cloud details after 1 min + + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag= 1 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM +TailgateState = 1 +TailgateStateStatus = 3 +3 Verify Cloud details after 1 min + + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +TailgateState = 3 +Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +TailgateState = 0 +TailgateStateStatus = 0 +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag = 0 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +TailgateState = 0 (close) +TailgateStateStatus = 3 +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +TailgateState = 1 +TailgateStateStatus = 0 +3 Verify Cloud details after 1 min + + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag= 1 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +TailgateState = 1 +TailgateStateStatus = 3 +3 Verify Cloud details after 1 min + + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +TailgateState = 3 +Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +TailgateState = 0 +TailgateStateStatus = 0 +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag = 0 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +TailgateState = 0 (close) +TailgateStateStatus = 3 +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +TailgateState = 1 +TailgateStateStatus = 0 +3 Verify Cloud details after 1 min + + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag= 1 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +TailgateState = 1 +TailgateStateStatus = 3 +3 Verify Cloud details after 1 min + + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +TailgateState = 3 +Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TailGateOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +BonnetState = 0 (close) +BonnetStateStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 0 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +BonnetState = 0 (close) +BonnetStateStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +BonnetState = 1 +BonnetStateStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 1 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM +BonnetState = 1 +BonnetStateStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM +BonnetState =3 + Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +BonnetState = 0 (close) +BonnetStateStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 0 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +BonnetState = 0 (close) +BonnetStateStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +BonnetState = 1 +BonnetStateStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 1 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +BonnetState = 1 +BonnetStateStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM +BonnetState =3 + Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +BonnetState = 0 (close) +BonnetStateStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 0 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +BonnetState = 0 (close) +BonnetStateStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 4 + + +II Verify the Door status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +BonnetState = 1 +BonnetStateStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 1 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +BonnetState = 1 +BonnetStateStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM +BonnetState =3 + Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BonnetOpenFlag = 4 + +II Verify the Door status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM + HighbeamTelltale = 0 (High Beam OFF) + HighBeamTelltaleStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 0 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM + HighbeamTelltale = 0 + HighBeamTelltaleStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 4 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM + HighbeamTelltale = 1 + HighBeamTelltaleStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 1 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM + HighbeamTelltale = 1 (High Beam On) + HighBeamTelltaleStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 4 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM + HighbeamTelltale = 4 + +3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 4 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM + HighbeamTelltale = 0 (High Beam OFF) + HighBeamTelltaleStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 0 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM + HighbeamTelltale = 0 + HighBeamTelltaleStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 4 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM + HighbeamTelltale = 1 + HighBeamTelltaleStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 1 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM + HighbeamTelltale = 1 (High Beam On) + HighBeamTelltaleStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 4 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM + HighbeamTelltale = 4 + +3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 4 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM + HighbeamTelltale = 0 (High Beam OFF) + HighBeamTelltaleStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 0 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM + HighbeamTelltale = 0 + HighBeamTelltaleStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 4 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM + HighbeamTelltale = 1 + HighBeamTelltaleStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 1 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM + HighbeamTelltale = 1 (High Beam On) + HighBeamTelltaleStatus = 3 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 4 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM + HighbeamTelltale = 4 + +3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighBeamLampOnFlag = 4 + + +II Verify the High Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode Active +Powermode state = 6 +2 Set the Below signals from BCM + LowbeamTelltale = 0 (Low Beam Lamp OFF) + LowbeamTelltaleStatus = 0 +3 Verify Cloud details after 3 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowBeamLampOnFlag = 0 +II Verify the Low Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from BCM + LowbeamTelltale = 0 (Low Beam Lamp OFF) + LowBeamTelltaleStatus = 3 +3 Verify Cloud details after 3 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowBeamLampOnFlag = 4 +II Verify the Low Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM + LowbeamTelltale = 1 (Low Beam Lamp On) + LowBeamTelltaleStatus = 0 +3 Verify Cloud details after 1 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowBeamLampOnFlag = 1 + +II Verify the Low Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from BCM + LowBeamTellTale = 1 (Low Beam Lamp On) + LowBeamTellTaleStatus = 3 +3 Verify Cloud details after 1 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowBeamLampOnFlag = 4 +II Verify the Low Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from BCM + LowbeamTelltale = 0 + LowBeamTelltaleStatus = 0 +3 Verify Cloud details after 1 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowBeamLampOnFlag= 0 +II Verify the Low Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from BCM + LowbeamTelltale = 0 + LowBeamTelltaleStatus = 3 +3 Verify Cloud details after 1 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowBeamLampOnFlag = 4 +II Verify the Low Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is Awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from BCM + LowbeamTelltale = 1 + LowBeamTelltaleStatus =0 +3 Verify Cloud details after 1 min + +Expected Output: + + +II Verify the following details in the Cloud: + a Health Record Element - LowBeamLampOnFlag = 1 +III Verify the Low Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from BCM + LowbeamTelltale = 1 + LowBeamTelltaleStatus = 3 +3 Verify Cloud details after 1 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowBeamLampOnFlag = 4 +II Verify the Low Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode Crank +Powermode state = 9 +2 Set the Below signals from BCM + LowbeamTelltale = 0 (Low Beam Lamp OFF) + LowbeamTelltaleStatus = 0 +3 Verify Cloud details after 3 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowBeamLampOnFlag = 0 +II Verify the Low Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM + LowbeamTelltale = 0 (Low Beam Lamp OFF) + LowBeamTelltaleStatus = 3 +3 Verify Cloud details after 3 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowBeamLampOnFlag = 4 +II Verify the Low Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from BCM + LowbeamTelltale = 1 (Low Beam Lamp On) + LowBeamTelltaleStatus = 0 +3 Verify Cloud details after 1 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowBeamLampOnFlag = 1 + +II Verify the Low Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from BCM + LowBeamTellTale = 1 (Low Beam Lamp On) + LowBeamTellTaleStatus = 3 +3 Verify Cloud details after 1 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowBeamLampOnFlag = 4 +II Verify the Low Beam status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from EPAS + EPAsStatus = 0 (EPAS fully Available and Lamp off) +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 0 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from EPAS + EPAsStatus = 0 (EPAS fully Available and Lamp off) +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 0 + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from EPAS + EPAsStatus = 1 (Reserved) + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 4 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from EPAS + EPAsStatus = 2 (EPAS is not available due to a detected failure at EPAS system Lamp will glow) + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 2 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from EPAS + EPAsStatus = 3 (Reserved) + +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from EPAS + EPAsStatus = 2 (EPAS is not available due to a detected failure at EPAS system Lamp will glow) + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 2 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from EPAS + EPAsStatusGen2 = 0 (EPAS fully available & Lamp Off) + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from EPAS + EPAsStatusGen2 = 0 (EPAS fully available & Lamp Off) + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from EPAS +EPAsStatusGen2 = 1 (Reserved) + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from EPAS +EPAsStatusGen2 = 2 (EPAS is not available due to a detected failure at EPAS system Lamp will glow) + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 2 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from EPAS +EPAsStatusGen2 = 3 (Reserved) + +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from EPAS + EPAsStatusGen2 = 2 (EPAS is not available due to a detected failure at EPAS system Lamp will glow) + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 2 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from EPAS +EPAsStatus = 0 (EPAS is available, Lamp will not glow) +EPAsStatusGen2 = 2 (EPAS is not available due to a detected failure at EPAS system Lamp will glow) + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from EPAS +EPAsStatus = 0 (EPAS is available, Lamp will not glow) +EPAsStatusGen2 = 2 (EPAS is not available due to a detected failure at EPAS system Lamp will glow) + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from EPAS +EPAsStatus = 1 (Reserved) +EPAsStatusGen2 = 2 (EPAS is not available due to a detected failure at EPAS system Lamp will glow) + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from EPAS +EPAsStatus = 2 (EPAS is not available due to a detected failure at EPAS system Lamp will glow) +EPAsStatusGen2 = 0 (EPAS is available, Lamp will not glow) + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 2 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from EPAS +EPAsStatus = 3 (Reserved) +EPAsStatusGen2 = 2 (EPAS is not available due to a detected failure at EPAS system Lamp will glow) + +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag =4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from EPAS +EPAsStatus = 2 (EPAS is not available due to a detected failure at EPAS system Lamp will glow) +EPAsStatusGen2 = 3 (Reserved) + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is Sleep + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Set the Below signals from EPAS +EPAsStatus = 2 (EPAS is not available due to a detected failure at EPAS system Lamp will glow) +EPAsStatusGen2 = 3 (Reserved) + +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag = 4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from ABS + ABsStatus = 0 (ABS function fully available @ ABS warning lamp is OFF) + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 Mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from ABS +ABsStatus = 2 (ABS function switched off due to a detected failure at ABS / ESP system @ ABS warning lamp is ON) + + 3 Verify Cloud details after 3 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag = 2 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from ABS +ABsStatus = 1 (Reserved ) + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag = 4 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from ABS + ABsStatus = 0 (ABS function fully available @ ABS warning lamp is OFF) + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 Mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from ABS +ABsStatus = 2 (ABS function switched off due to a detected failure at ABS / ESP system @ ABS warning lamp is ON) + + 3 Verify Cloud details after 3 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag = 2 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from ABS +ABsStatus = 1 (Reserved ) + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag = 4 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from ABS + ABsStatus = 0 (ABS function fully available @ ABS warning lamp is OFF) + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 Mins +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from ABS +ABsStatus = 2 (ABS function switched off due to a detected failure at ABS / ESP system @ ABS warning lamp is ON) + + 3 Verify Cloud details after 3 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag = 2 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from ABS +ABsStatus = 1 (Reserved ) + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag = 4 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from SRS +SRSWarningLamp = 0 (AWL Off) + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag =0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from SRS +SRSWarningLamp = 1 (AWL On) + + 3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from SRS +SRSWarningLamp =5 + + 3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag = 4 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from SRS +SRSWarningLamp = 0 (AWL Off) + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag =0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from SRS +SRSWarningLamp = 1 (AWL On) + + 3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from SRS +SRSWarningLamp =5 + + 3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag = 4 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from SRS +SRSWarningLamp = 0 (AWL Off) + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag =0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from SRS +SRSWarningLamp = 1 (AWL On) + + 3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from SRS +SRSWarningLamp =5 + + 3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag = 4 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from PEPS +PEPsKeyInState =0 + +3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - PepsKeyInVehicleFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from PEPS +PEPsKeyInState = 1 (Key Is Inside The Vehicle) + + 3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - PepsKeyInVehicleFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from PEPS +PEPsKeyInState = 4 + + 3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - PepsKeyInVehicleFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from PEPS +PEPsKeyInState =0 + +3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - PepsKeyInVehicleFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from PEPS +PEPsKeyInState = 1 (Key Is Inside The Vehicle) + + 3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - PepsKeyInVehicleFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from PEPS +PEPsKeyInState = 4 + + 3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - PepsKeyInVehicleFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from PEPS +PEPsKeyInState =0 + +3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - PepsKeyInVehicleFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from PEPS +PEPsKeyInState = 1 (Key Is Inside The Vehicle) + + 3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - PepsKeyInVehicleFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from PEPS +PEPsKeyInState = 4 + + 3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - PepsKeyInVehicleFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Time to charge HV battery (in hrs) information and status Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 Min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from VCU +TimetoChargeHVHours = 0 (Range: 0 to 23) +TimetoChargeHVHoursStatus = 0 +3 Verify Cloud details after 1 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Element - TimeToChargeHour = 0 + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Time to charge HV battery (in hrs) information and status Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 Min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from VCU +TimetoChargeHVHours = 0 +TimetoChargeHVHoursStatus = 2 +3 Verify Cloud details after 1 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Element - TimeToChargeHour : 24 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Time to charge HV battery (in hrs) information and status Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from VCU +TimetoChargeHVHours = 3 +TimetoChargeHVHoursStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TimeToChargeHour = 3 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Time to charge HV battery (in hrs) information and status Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from VCU +TimetoChargeHVHours = 3 +TimetoChargeHVHoursStatus = 2 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TimeToChargeHour : 24 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Time to charge HV battery (in hrs) information and status Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from VCU +TimetoChargeHVHours = 1 +TimetoChargeHVHoursStatus = 0 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TimeToChargeHour = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Time to charge HV battery (in hrs) information and status Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from VCU +TimetoChargeHVHours = 1 +TimetoChargeHVHoursStatus = 2 +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TimeToChargeHour : 24 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Time to charge HV battery (in mins) information and status Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state =6 +2 Set the Below signals from VCU + TimetoChargeHVMints = 59 (Range: 0 to 59) + TimetoChargeHVMintsStatus = 0 +3 Verify Cloud details after 1 mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TimeToChargeMinute = 59 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Time to charge HV battery (in mins) information and status Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = +2 Set the Below signals from VCU + TimetoChargeHVMints = 59 + TimetoChargeHVMintsStatus = 2 +3 Verify Cloud details after 1 mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TimeToChargeMinute : 60 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Time to charge HV battery (in mins) information and status Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from VCU + TimetoChargeHVMints = 22 + TimetoChargeHVMintsStatus = 0 +3 Verify Cloud details after 3 Mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TimeToChargeMinute = 22 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Time to charge HV battery (in mins) information and status Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 3 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from VCU + TimetoChargeHVMints = 22 + TimetoChargeHVMintsStatus = 2 +3 Verify Cloud details after 3 Mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TimeToChargeMinute : 60 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Time to charge HV battery (in mins) information and status Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from VCU + TimetoChargeHVMints = 0 + TimetoChargeHVMintsStatus = 0 +3 Verify Cloud details after 3 Mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TimeToChargeMinute = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Time to charge HV battery (in mins) information and status Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from VCU + TimetoChargeHVMints = 0 + TimetoChargeHVMintsStatus = 2 +3 Verify Cloud details after 3 Mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TimeToChargeMinute : 60 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 Min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from VCU + BatteryHighTemp = 0 (Battey Temp lamp is OFF) + BatteryHighTempStatus = 0 +3 Verify Cloud details after 1 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale= 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 Min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from VCU + BatteryHighTemp = 0 (Battey Temp lamp is OFF) + BatteryHighTempStatus = 2 +3 Verify Cloud details after 1 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale = 5 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 Min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from VCU + BatteryHighTemp = 1 (Battey Temp lamp Flashing) + BatteryHighTempStatus = 0 +3 Verify Cloud details after 1 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 Min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from VCU + BatteryHighTemp = 1 (Battey Temp lamp Flashing) + BatteryHighTempStatus = 2 +3 Verify Cloud details after 1 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale = 5 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from VCU + BatteryHighTemp = 2 (Battey Temp lamp ON) + BatteryHighTempStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale = 2 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from VCU + BatteryHighTemp = 2 (Battey Temp lamp ON) + BatteryHighTempStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale = 5 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from VCU + BatteryHighTemp = 2 (Battey Temp lamp ON) + BatteryHighTempStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale = 2 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from VCU + BatteryHighTemp = 2 (Battey Temp lamp ON) + BatteryHighTempStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HighTemperatureTelltale = 5 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 Min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from VCU + HVChargerConnected = 0 (Charger Connection lamp is OFF ) + HVChargerConnectedStatus = 0 +3 Verify Cloud details after 2 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 2 Min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Set the Below signals from VCU + HVChargerConnected = 0 (Charger Connection lamp is OFF ) + HVChargerConnectedStatus = 2 +3 Verify Cloud details after 2 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag = 4 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from VCU + HVChargerConnected = 0 (Charger Connection lamp is OFF ) + HVChargerConnectedStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Set the Below signals from VCU + HVChargerConnected = 0 (Charger Connection lamp is OFF ) + HVChargerConnectedStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag = 4 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from VCU + HVChargerConnected = 1 (Charger Connection lamp On) + HVChargerConnectedStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag= 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from VCU + HVChargerConnected = 1 (Charger Connection lamp On) + HVChargerConnectedStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag= 4 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from VCU + HVChargerConnected = 2 (Charger Connection lamp Flash) + HVChargerConnectedStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from VCU + HVChargerConnected = 2 (Charger Connection lamp Flash) + HVChargerConnectedStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag = 4 (Default) + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from VCU + HVChargerConnected = 2 or 3 (Reserved for future use) + HVChargerConnectedStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag = 4 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Low/Zero Charge Status information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 minonds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode Active +Powermode state = 6 +2 Set the Below signals from VCU + LowHVBatteryCharge = 0 +3 Verify Cloud details after 1 minonds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =0 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Low/Zero Charge Status information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 minonds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU + LowHVBatteryCharge = 1 +3 Verify Cloud details after 1 minonds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Low/Zero Charge Status information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 10 seconds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from VCU + LowHVBatteryCharge = 2 +3 Verify Cloud details after 10 seconds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =1 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Low/Zero Charge Status information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 10 seconds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from VCU + LowHVBatteryCharge =3 +3 Verify Cloud details after 10 seconds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Low/Zero Charge Status information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 minonds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode Run +Powermode state = 8 +2 Set the Below signals from VCU + LowHVBatteryCharge = 0 +3 Verify Cloud details after 1 minonds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =0 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Low/Zero Charge Status information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 minonds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU + LowHVBatteryCharge = 1 +3 Verify Cloud details after 1 minonds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Low/Zero Charge Status information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 10 seconds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU + LowHVBatteryCharge = 2 +3 Verify Cloud details after 10 seconds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =1 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Low/Zero Charge Status information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 10 seconds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU + LowHVBatteryCharge =3 +3 Verify Cloud details after 10 seconds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Low/Zero Charge Status information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 minonds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode Crank +Powermode state = 9 +2 Set the Below signals from VCU + LowHVBatteryCharge = 0 +3 Verify Cloud details after 1 minonds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =0 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Low/Zero Charge Status information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 minonds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU + LowHVBatteryCharge = 1 +3 Verify Cloud details after 1 minonds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Low/Zero Charge Status information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 10 seconds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU + LowHVBatteryCharge = 2 +3 Verify Cloud details after 10 seconds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =1 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Low/Zero Charge Status information from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 10 seconds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU + LowHVBatteryCharge =3 +3 Verify Cloud details after 10 seconds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Drive motor status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 minonds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from VCU + DriveMotorStatus = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Drive motor status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 minonds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU + DriveMotorStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Drive motor status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 9 +2 Set the Below signals from VCU + DriveMotorStatus = Send any other value +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag = 4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Drive motor status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 minonds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU + DriveMotorStatus = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Drive motor status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 minonds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU + DriveMotorStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Drive motor status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU + DriveMotorStatus = Send any other value +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag = 4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Drive motor status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 minonds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU + DriveMotorStatus = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Drive motor status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 minonds +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU + DriveMotorStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Drive motor status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU + DriveMotorStatus = Send any other value +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag = 4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +HvBattSoh = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +HvBattSoh = 10 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage = 101 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvBattSoh = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvBattSoh = 10 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage = 101 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +HvBattSoh = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +HvBattSoh = 10 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage = 101 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvBattSocPercen = 100 +HvBattSocPercenStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage = 100 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvBattSocPercen = 100 +HvBattSocPercenStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage = 101 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +HvBattSocPercen = 100 +HvBattSocPercenStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage = 100 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +HvBattSocPercen = 100 +HvBattSocPercenStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage = 101 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +HvBattSocPercen = 100 +HvBattSocPercenStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage = 100 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +HvBattSocPercen = 100 +HvBattSocPercenStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage = 101 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattMaxCellTemp status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvBattMaxCellTemp =200 +HvBattMaxCellTempStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattMaxCellTemp = 200 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattMaxCellTemp status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvBattMaxCellTemp =100 +HvBattMaxCellTempStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattMaxCellTemp = 201 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattMaxCellTemp status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +HvBattMaxCellTemp =200 +HvBattMaxCellTempStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattMaxCellTemp = 200 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattMaxCellTemp status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +HvBattMaxCellTemp =100 +HvBattMaxCellTempStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattMaxCellTemp = 201 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattMaxCellTemp status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +HvBattMaxCellTemp =200 +HvBattMaxCellTempStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattMaxCellTemp = 200 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattMaxCellTemp status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +HvBattMaxCellTemp =100 +HvBattMaxCellTempStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattMaxCellTemp = 201 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Brake Vaccume Pump Status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU + BrkVaccumePumpStatus = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Brake Vaccume Pump Status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU + BrkVaccumePumpStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Brake Vaccume Pump Status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU + BrkVaccumePumpStatus = Send any other value (Except 0 & 1) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag = 4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Brake Vaccume Pump Status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU + BrkVaccumePumpStatus = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Brake Vaccume Pump Status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU + BrkVaccumePumpStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Brake Vaccume Pump Status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU + BrkVaccumePumpStatus = Send any other value (Except 0 & 1) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag = 4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Brake Vaccume Pump Status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU + BrkVaccumePumpStatus = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Brake Vaccume Pump Status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU + BrkVaccumePumpStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Brake Vaccume Pump Status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU + BrkVaccumePumpStatus = Send any other value (Except 0 & 1) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag = 4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from IPC +IcHuBatteryChargingState=0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus = 0 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from IPC +IcHuBatteryChargingState=1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LvBatteryChargingStatus = 1 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +IcHuBatteryChargingState=2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus = 2 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +IcHuBatteryChargingState=3 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus = 5 + + +II Verify the Battery Charging State value is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +IcHuBatteryChargingState=0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus = 0 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +IcHuBatteryChargingState=1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LvBatteryChargingStatus = 1 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +IcHuBatteryChargingState=2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus = 2 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +IcHuBatteryChargingState=3 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus = 5 + + +II Verify the Battery Charging State value is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +IcHuBatteryChargingState=0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus = 0 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +IcHuBatteryChargingState=1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LvBatteryChargingStatus = 1 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +IcHuBatteryChargingState=2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus = 2 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +IcHuBatteryChargingState=3 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus = 5 + + +II Verify the Battery Charging State value is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU interally receive valid Tcu Health State Information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Check the Below signals +Internal to TCM = 50 (Range 0 to 100) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details : + a Health Record Element - TcuBattLevelPercen = 50 + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU interally receive valid Tcu Health State Information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Check the Below signals +Internal to TCM = 200(Range 0 to 100) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details : + a Health Record Element - TcuBattLevelPercen = 101 + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU interally receive valid Tcu Health State Information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Check the Below signals +Internal to TCM = 100 (Range 0 to 100) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details : + a Health Record Element - TcuBattLevelPercen = 100 + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU interally receive valid Tcu Health State Information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Check the Below signals +Internal to TCM = 400(Range 0 to 100) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details : + a Health Record Element - TcuBattLevelPercen = 101 + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU interally receive valid Tcu Health State Information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Check the Below signals +Internal to TCM = 110 (Range 0 to 100) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details : + a Health Record Element - TcuBattLevelPercen = 101 + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU interally receive valid Tcu Health State Information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Check the Below signals +Internal to TCM = 10 (Range 0 to 100) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details : + a Health Record Element - TcuBattLevelPercen = 10 + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Set the Below signals from TPMS +TpmsFaultStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS +TpmsFaultStatus = 1 or 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS +TpmsFaultStatus = 3 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS +TpmsFaultStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS +TpmsFaultStatus = 1 or 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS +TpmsFaultStatus = 3 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from TPMS +TpmsFaultStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from TPMS +TpmsFaultStatus = 1 or 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from TPMS +TpmsFaultStatus = 3 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Left Wheel Tyre Pressure State ('HighTireTempAlertRL, LowTireTempAlertRL) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS + HighTireTempAlertRL = 0 + LowTireTempAlertRL= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearLeftWheelTyrePressureState=0 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Left Wheel Tyre Pressure State ('HighTireTempAlertRL, LowTireTempAlertRL) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS + HighTireTempAlertRL = 1 + LowTireTempAlertRL= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearLeftWheelTyrePressureState=1 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Left Wheel Tyre Pressure State ('HighTireTempAlertRL, LowTireTempAlertRL) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS + HighTireTempAlertRL = 0 + LowTireTempAlertRL= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearLeftWheelTyrePressureState=2 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Left Wheel Tyre Pressure State ('HighTireTempAlertRL, LowTireTempAlertRL) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS + HighTireTempAlertRL = 1 + LowTireTempAlertRL= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearLeftWheelTyrePressureState=5 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Left Wheel Tyre Pressure State ('HighTireTempAlertRL, LowTireTempAlertRL) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS + HighTireTempAlertRL = 0 + LowTireTempAlertRL= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearLeftWheelTyrePressureState=0 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Left Wheel Tyre Pressure State ('HighTireTempAlertRL, LowTireTempAlertRL) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS + HighTireTempAlertRL = 1 + LowTireTempAlertRL= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearLeftWheelTyrePressureState=1 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Left Wheel Tyre Pressure State ('HighTireTempAlertRL, LowTireTempAlertRL) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS + HighTireTempAlertRL = 0 + LowTireTempAlertRL= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearLeftWheelTyrePressureState=2 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Left Wheel Tyre Pressure State ('HighTireTempAlertRL, LowTireTempAlertRL) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS + HighTireTempAlertRL = 1 + LowTireTempAlertRL= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearLeftWheelTyrePressureState=5 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Left Wheel Tyre Pressure State ('HighTireTempAlertRL, LowTireTempAlertRL) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from TPMS + HighTireTempAlertRL = 0 + LowTireTempAlertRL= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearLeftWheelTyrePressureState=0 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Left Wheel Tyre Pressure State ('HighTireTempAlertRL, LowTireTempAlertRL) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from TPMS + HighTireTempAlertRL = 1 + LowTireTempAlertRL= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearLeftWheelTyrePressureState=1 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Left Wheel Tyre Pressure State ('HighTireTempAlertRL, LowTireTempAlertRL) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from TPMS + HighTireTempAlertRL = 0 + LowTireTempAlertRL= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearLeftWheelTyrePressureState=2 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Left Wheel Tyre Pressure State ('HighTireTempAlertRL, LowTireTempAlertRL) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from TPMS + HighTireTempAlertRL = 1 + LowTireTempAlertRL= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearLeftWheelTyrePressureState=5 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Right Wheel Tyre Pressure State ('HighTireTempAlertRR, LowTireTempAlertRR) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS + HighTireTempAlertRR = 0 + LowTireTempAlertRR = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearRightWheelTyrePressureState=0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Right Wheel Tyre Pressure State ('HighTireTempAlertRR, LowTireTempAlertRR) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS + HighTireTempAlertRR = 1 + LowTireTempAlertRR = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Heath Record Element - RearRightWheelTyrePressureState=1 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Right Wheel Tyre Pressure State ('HighTireTempAlertRR, LowTireTempAlertRR) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS + HighTireTempAlertRR = 1 + LowTireTempAlertRR = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearRightWheelTyrePressureState=5 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Right Wheel Tyre Pressure State ('HighTireTempAlertRR, LowTireTempAlertRR) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS + HighTireTempAlertRR = 1 + LowTireTempAlertRR = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Heath Record Element - RearRightWheelTyrePressureState=1 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Right Wheel Tyre Pressure State ('HighTireTempAlertRR, LowTireTempAlertRR) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS + HighTireTempAlertRR = 0 + LowTireTempAlertRR = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearRightWheelTyrePressureState=0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Right Wheel Tyre Pressure State ('HighTireTempAlertRR, LowTireTempAlertRR) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS + HighTireTempAlertRR = 1 + LowTireTempAlertRR = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Heath Record Element - RearRightWheelTyrePressureState=1 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Right Wheel Tyre Pressure State ('HighTireTempAlertRR, LowTireTempAlertRR) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS + HighTireTempAlertRR = 1 + LowTireTempAlertRR = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearRightWheelTyrePressureState=5 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Right Wheel Tyre Pressure State ('HighTireTempAlertRR, LowTireTempAlertRR) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS + HighTireTempAlertRR = 1 + LowTireTempAlertRR = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Heath Record Element - RearRightWheelTyrePressureState=1 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Right Wheel Tyre Pressure State ('HighTireTempAlertRR, LowTireTempAlertRR) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from TPMS + HighTireTempAlertRR = 0 + LowTireTempAlertRR = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearRightWheelTyrePressureState=0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Right Wheel Tyre Pressure State ('HighTireTempAlertRR, LowTireTempAlertRR) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as CRank +Powermode state = 9 +2 Set the Below signals from TPMS + HighTireTempAlertRR = 1 + LowTireTempAlertRR = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Heath Record Element - RearRightWheelTyrePressureState=1 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Right Wheel Tyre Pressure State ('HighTireTempAlertRR, LowTireTempAlertRR) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from TPMS + HighTireTempAlertRR = 1 + LowTireTempAlertRR = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RearRightWheelTyrePressureState=5 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Rear Right Wheel Tyre Pressure State ('HighTireTempAlertRR, LowTireTempAlertRR) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from TPMS + HighTireTempAlertRR = 1 + LowTireTempAlertRR = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Heath Record Element - RearRightWheelTyrePressureState=1 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Spare Tyre Pressure State (HighTireTempAlertSpare, LowTireTempAlertSpare) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS + HighTireTempAlertSpare = 0 + LowTireTempAlertSpare= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureState=9 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Spare Tyre Pressure State (HighTireTempAlertSpare, LowTireTempAlertSpare) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS + HighTireTempAlertSpare = 1 + LowTireTempAlertSpare= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureState=1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Spare Tyre Pressure State (HighTireTempAlertSpare, LowTireTempAlertSpare) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS + HighTireTempAlertSpare = 0 + LowTireTempAlertSpare= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureState=2 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Spare Tyre Pressure State (HighTireTempAlertSpare, LowTireTempAlertSpare) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS + HighTireTempAlertSpare = 1 + LowTireTempAlertSpare= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureState=5 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Spare Tyre Pressure State (HighTireTempAlertSpare, LowTireTempAlertSpare) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS + HighTireTempAlertSpare = 0 + LowTireTempAlertSpare= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureState=9 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Spare Tyre Pressure State (HighTireTempAlertSpare, LowTireTempAlertSpare) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS + HighTireTempAlertSpare = 1 + LowTireTempAlertSpare= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureState=1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Spare Tyre Pressure State (HighTireTempAlertSpare, LowTireTempAlertSpare) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS + HighTireTempAlertSpare = 0 + LowTireTempAlertSpare= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureState=2 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Spare Tyre Pressure State (HighTireTempAlertSpare, LowTireTempAlertSpare) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS + HighTireTempAlertSpare = 1 + LowTireTempAlertSpare= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureState=5 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Spare Tyre Pressure State (HighTireTempAlertSpare, LowTireTempAlertSpare) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from TPMS + HighTireTempAlertSpare = 0 + LowTireTempAlertSpare= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureState=9 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Spare Tyre Pressure State (HighTireTempAlertSpare, LowTireTempAlertSpare) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from TPMS + HighTireTempAlertSpare = 1 + LowTireTempAlertSpare= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureState=1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Spare Tyre Pressure State (HighTireTempAlertSpare, LowTireTempAlertSpare) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from TPMS + HighTireTempAlertSpare = 0 + LowTireTempAlertSpare= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureState=2 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Spare Tyre Pressure State (HighTireTempAlertSpare, LowTireTempAlertSpare) from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from TPMS + HighTireTempAlertSpare = 1 + LowTireTempAlertSpare= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureState=5 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Front Left Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Engine Active +Powermode state = 6 +2 Set the Below signals from TPMS +TirePressureFL = 100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontLeftWheelTyrePressure =100 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Front Left Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Engine Active +Powermode state = 6 +2 Set the Below signals from TPMS +TirePressureFL = 1000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontLeftWheelTyrePressure =4096 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Front Left Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS +TirePressureFL = 100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontLeftWheelTyrePressure =100 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Front Left Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS +TirePressureFL = 1000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontLeftWheelTyrePressure =4096 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Front Left Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from TPMS +TirePressureFL = 100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontLeftWheelTyrePressure =100 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Front Left Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from TPMS +TirePressureFL = 1000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontLeftWheelTyrePressure =4096 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Front Right Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS +TirePressureFR =100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontRightWheelTyrePressure =100 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Rear Right Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS +TirePressureRR = 1000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearRightWheelTyrePressure = 4096 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Front Right Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS +TirePressureFR =100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontRightWheelTyrePressure =100 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Rear Right Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS +TirePressureRR = 1000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearRightWheelTyrePressure = 4096 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Front Right Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from TPMS +TirePressureFR =100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontRightWheelTyrePressure =100 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Rear Right Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from TPMS +TirePressureRR = 1000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearRightWheelTyrePressure = 4096 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Spare Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS +TirePressureSpare = 100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressure = 100 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Spare Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from TPMS +TirePressureSpare = 1000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressure = 4096 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Spare Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS +TirePressureSpare = 100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressure = 100 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Spare Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from TPMS +TirePressureSpare = 1000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressure = 4096 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Spare Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from TPMS +TirePressureSpare = 100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressure = 100 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Tire Pressure Spare Tire Actual Value from TPMS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from TPMS +TirePressureSpare = 1000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressure = 4096 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 0 (Charger Connection lamp is OFF ) +HvChargingStateStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState =0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 0 +HvChargingStateStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState =4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 1 +HvChargingStateStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState =0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 1 +HvChargingStateStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState =4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 3 +HvChargingStateStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState =0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 3 +HvChargingStateStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState =4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 4 +HvChargingStateStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState =0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 4 +HvChargingStateStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState =4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Ignition +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 5,6,7 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -BatteryChargeState =4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +HvChargingState = 4 +HvChargingStateStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState =4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +HvChargingState = 5,6,7 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -BatteryChargeState =4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 0 +HvChargingStateStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState =0 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 0 +HvChargingStateStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState =4 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode asActive +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 2 +HvChargingStateStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState =1 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 2 +HvChargingStateStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState =4 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 3 +HvChargingStateStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState =0 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 3 +HvChargingStateStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState =4 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode asActive +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 4 +HvChargingStateStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState =0 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 4 +HvChargingStateStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState =4 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvChargingState = 5,6,7 +HvChargingStateStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState =4 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from VCU +HvChargingState = 4 +HvChargingStateStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState =0 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +HvChargingState = 4 +HvChargingStateStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState =4 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid VCU Malfunction signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +VcuStatus = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - VcuMalfunctionFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid VCU Malfunction signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +VcuStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - VcuMalfunctionFlag = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid VCU Malfunction signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +VcuStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - VcuMalfunctionFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid VCU Malfunction signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +VcuStatus = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - VcuMalfunctionFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid VCU Malfunction signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +VcuStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - VcuMalfunctionFlag = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid VCU Malfunction signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +VcuStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - VcuMalfunctionFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid VCU Malfunction signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +VcuStatus = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - VcuMalfunctionFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid VCU Malfunction signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from VCU +VcuStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - VcuMalfunctionFlag = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid VCU Malfunction signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Set the Below signals from VCU +VcuStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - VcuMalfunctionFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Low LV battery charge telltale from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +LowLVBatteryCharge = 0 (Low LV Battery Charge lamp is OFF ) +LowLVBatteryChargeStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowLvBattChargeFlag = 0 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Low LV battery charge telltale from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode Run +Powermode state = 9 +2 Set the Below signals from VCU +LowLVBatteryCharge =0 +LowLVBatteryChargeStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowLvBattChargeFlag= 4 + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Low LV battery charge telltale from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +LowLVBatteryCharge = 1 (Low LV Battery Charge lamp Flashing) +LowLVBatteryChargeStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowLvBattChargeFlag = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Low LV battery charge telltale from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +LowLVBatteryCharge = 1 +LowLVBatteryChargeStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowLvBattChargeFlag = 4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Low LV battery charge telltale from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +LowLVBatteryCharge = 10 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LowLvBattChargeFlag = 4 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Critical Alert signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +HVCriticalAlert = 0 (HV Critical Alert Lamp is Off) +HVCriticalAlertStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HVCriticalState = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Critical Alert signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +HVCriticalAlert = 1 (HV Critical Alert Lamp is Flashing) +HVCriticalAlertStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HVCriticalState = 5 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Critical Alert signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Running +Powermode state = 8 +2 Set the Below signals from VCU +HVCriticalAlert = 1 (HV Critical Alert Lamp is Flashing) +HVCriticalAlertStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HVCriticalState = 1 + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Critical Alert signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Running +Powermode state = 8 +2 Set the Below signals from VCU +HVCriticalAlert = 0 (HV Critical Alert Lamp is OFF) +HVCriticalAlertStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HVCriticalState = 5 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Critical Alert signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Ignition On +Powermode state = 6 +2 Set the Below signals from VCU +HVCriticalAlert = 2 (HV Critical Alert Lamp is On) +HVCriticalAlertStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HVCriticalState = 2 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Critical Alert signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Ignition On +Powermode state = 6 +2 Set the Below signals from VCU +HVCriticalAlert = 1 (HV Critical Alert Lamp is Flashing) +HVCriticalAlertStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HVCriticalState = 5 + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Service Telltale signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Ignition On +Powermode state = 6 +2 Set the Below signals from VCU +EVSystemWarning = 0 (Limp Home Mode lamp is OFF) +EVSystemWarningStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EVSystemWarning = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Service Telltale signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Ignition On +Powermode state = 6 +2 Set the Below signals from VCU +EVSystemWarning = 1 (Limp Home Mode lamp is Flashing) +EVSystemWarningStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EVSystemWarning = 1 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Service Telltale signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Ignition On +Powermode state = 6 +2 Set the Below signals from VCU +EVSystemWarning = 1 (Limp Home Mode lamp Flashing) +EVSystemWarningStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EVSystemWarning = 5 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Service Telltale signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Ignition On +Powermode state = 6 +2 Set the Below signals from VCU +EVSystemWarning = 2 (Limp Home Mode lamp ON) +EVSystemWarningStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EVSystemWarning = 5 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Service Telltale signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Ignition On +Powermode state = 6 +2 Set the Below signals from VCU +EVSystemWarning = 2 (Limp Home Mode lamp ON) +EVSystemWarningStatus = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EVSystemWarning = 2 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Service Telltale signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Running +Powermode state = 8 +2 Set the Below signals from VCU +EVSystemWarning = 1 (Limp Home Mode lamp is Flashing) +EVSystemWarningStatus = 2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EVSystemWarning = 5 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive TransmissionMalfunctionFlagl from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +TransServiceIndication = 0 +TransServiceIndicationDCT=8 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TransmissionMalfunctionFlag=4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive TransmissionMalfunctionFlagl from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +TransServiceIndication = 0 +TransServiceIndicationDCT=1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TransmissionMalfunctionFlag=1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive TransmissionMalfunctionFlagl from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +TransServiceIndication = 2 +TransServiceIndicationDCT=2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TransmissionMalfunctionFlag=1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive TransmissionMalfunctionFlagl from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +TransServiceIndication = 0 +TransServiceIndicationDCT=0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TransmissionMalfunctionFlag=0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive TransmissionMalfunctionFlagl from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +TransServiceIndication = 0 +TransServiceIndicationDCT=8 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TransmissionMalfunctionFlag=4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive TransmissionMalfunctionFlagl from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +TransServiceIndication = 0 +TransServiceIndicationDCT=1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TransmissionMalfunctionFlag=1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive TransmissionMalfunctionFlagl from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +TransServiceIndication = 2 +TransServiceIndicationDCT=2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TransmissionMalfunctionFlag=1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive TransmissionMalfunctionFlagl from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +TransServiceIndication = 0 +TransServiceIndicationDCT=0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TransmissionMalfunctionFlag=0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +DTeInfo = 100 +DteInfoStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -Distance to Empty = 100 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +DTeInfo = 100 +DteInfoStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -Distance to Empty = 1000 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +DTeInfo = 100 +DteInfoStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -Distance to Empty = 100 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +DTeInfo = 100 +DteInfoStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -Distance to Empty = 1000 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +DTeInfo = 100 +DteInfoStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -Distance to Empty = 100 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +DTeInfo = 100 +DteInfoStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -Distance to Empty = 1000 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus= 10 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus= 10 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus= 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus= 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus= 10 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from SRS +FrPassSBRIndication = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from SRS +FrPassSBRIndication = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from SRS +FrPassSBRIndication = 10 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from SRS +FrPassSBRIndication = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from SRS +FrPassSBRIndication = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from SRS +FrPassSBRIndication = 10 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from SRS +FrPassSBRIndication = 0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from SRS +FrPassSBRIndication = 1 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from SRS +FrPassSBRIndication = 10 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +BatteryHighTemp = 0 +BatteryHighTempStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +BatteryHighTemp = 0 +BatteryHighTempStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +BatteryHighTemp = 1 +BatteryHighTempStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +BatteryHighTemp = 1 +BatteryHighTempStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +BatteryHighTemp = 2 +BatteryHighTempStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +BatteryHighTemp = 2 +BatteryHighTempStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +BatteryHighTemp = 0 +BatteryHighTempStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +BatteryHighTemp = 0 +BatteryHighTempStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +BatteryHighTemp = 1 +BatteryHighTempStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +BatteryHighTemp = 1 +BatteryHighTempStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +BatteryHighTemp = 2 +BatteryHighTempStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +BatteryHighTemp = 2 +BatteryHighTempStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +BatteryHighTemp = 2 +BatteryHighTempStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +BatteryHighTemp = 2 +BatteryHighTempStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +BatteryHighTemp = 0 +BatteryHighTempStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 0 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +BatteryHighTemp = 0 +BatteryHighTempStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +BatteryHighTemp = 1 +BatteryHighTempStatus =0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 1 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +BatteryHighTemp = 1 +BatteryHighTempStatus =2 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag = 4 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty Non EV from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +cHuDTeInfo = 999 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - Distance to Empty Non EV = 999 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty Non EV from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +cHuDTeInfo = 2000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - Distance to Empty Non EV = 1000 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty Non EV from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +cHuDTeInfo = 999 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - Distance to Empty Non EV = 999 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty Non EV from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +cHuDTeInfo = 2000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - Distance to Empty Non EV = 1000 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty Non EV from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +cHuDTeInfo = 999 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - Distance to Empty Non EV = 999 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty Non EV from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +cHuDTeInfo = 2000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - Distance to Empty Non EV = 1000 + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattKWh from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from Vcu +HvBattPwrConsmp = 250 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattKWh = 250 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattKWh from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from Vcu +HvBattPwrConsmp = 1000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattKWh = 2501 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattKWh from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from Vcu +HvBattPwrConsmp = 250 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattKWh = 250 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattKWh from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from Vcu +HvBattPwrConsmp = 1000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattKWh = 2501 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattKWh from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from Vcu +HvBattPwrConsmp = 250 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattKWh = 250 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattKWh from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from Vcu +HvBattPwrConsmp = 1000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattKWh = 2501 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive FuelLevelPercentage from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +IcHuFuelVolumeInfoPercen = 100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -FuelLevelPercentageg = 100 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive FuelLevelPercentage from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from IPC +IcHuFuelVolumeInfoPercen = 200 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -FuelLevelPercentageg = 101 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive FuelLevelPercentage from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +IcHuFuelVolumeInfoPercen = 100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -FuelLevelPercentageg = 100 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive FuelLevelPercentage from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from IPC +IcHuFuelVolumeInfoPercen = 200 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -FuelLevelPercentageg = 101 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive FuelLevelPercentage from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +IcHuFuelVolumeInfoPercen = 100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -FuelLevelPercentageg = 100 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive FuelLevelPercentage from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from IPC +IcHuFuelVolumeInfoPercen = 200 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -FuelLevelPercentageg = 101 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive TCuHealthState fromInternal to TCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from Internal to TCM +Internal to TCM = 100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TCuHealthState = 100 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive TCuHealthState fromInternal to TCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from Internal to TCM +Internal to TCM = 10000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TCuHealthState = 8192 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive TCuHealthState fromInternal to TCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from Internal to TCM +Internal to TCM = 100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TCuHealthState = 100 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive TCuHealthState fromInternal to TCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from Internal to TCM +Internal to TCM = 10000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TCuHealthState = 8192 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive TCuHealthState fromInternal to TCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from Internal to TCM +Internal to TCM = 100 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TCuHealthState = 100 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive TCuHealthState fromInternal to TCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from Internal to TCM +Internal to TCM = 10000 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TCuHealthState = 8192 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall ReceiveHvBattTemp from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvBattTemp = 80 +HvBattTempStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -ReceiveHvBattTemp = 80 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall ReceiveHvBattTemp from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set the Below signals from VCU +HvBattTemp = 80 +HvBattTempStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -ReceiveHvBattTemp = 81 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall ReceiveHvBattTemp from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +HvBattTemp = 80 +HvBattTempStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -ReceiveHvBattTemp = 80 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall ReceiveHvBattTemp from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set the Below signals from VCU +HvBattTemp = 80 +HvBattTempStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -ReceiveHvBattTemp = 81 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall ReceiveHvBattTemp from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +HvBattTemp = 80 +HvBattTempStatus = 0 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -ReceiveHvBattTemp = 80 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall ReceiveHvBattTemp from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set the Below signals from VCU +HvBattTemp = 80 +HvBattTempStatus = 2 + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -ReceiveHvBattTemp = 81 + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall export Vehicle Health packet to cloud during Ignition ON state + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Check the TCU in wake up mode +3 TCU receives health check request (RemoteVehicleHealthRefreshCommand) from Cloud + +Expected Output: + I Verify the TCU is in wake up mode or TCU wakes up after receiving the Wake-up SMS from app +II Verify the TCU receives health check request "RemoteVehicleHealthRefreshCommand" from Cloud +III Verify the TCU Wake-up the diagnostics CAN by publishing NM_PDU messages +IV Verify the TCU send a packet of Health data as per TMCVP +V Verify the TCU send "RemoteVehicleHealthRefreshCommandResponse" And after that go in to sleep mode + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall export Vehicle Health packet to cloud during Ignition ON state + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Engine Running +Powermode state = 8 +2 Check the TCU in wake up mode +3 TCU receives health check request (RemoteVehicleHealthRefreshCommand) from Cloud + +Expected Output: + I Verify the TCU is in wake up mode or TCU wakes up after receiving the Wake-up SMS from app +II Verify the TCU receives health check request "RemoteVehicleHealthRefreshCommand" from Cloud +III Verify the TCU Wake-up the diagnostics CAN by publishing NM_PDU messages +IV Verify the TCU send a packet of Health data as per TMCVP +V Verify the TCU send "RemoteVehicleHealthRefreshCommandResponse" And after that go in to sleep mode + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattMaxCellTemp status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +HvBattMaxCellTemp +HvBattMaxCellTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattMaxCellTemp + +II If the HvBattMaxCellTempStatus = 0 + Thenp same value of HvBattMaxCellTem should be updated in cloud + HvBattMaxCellTemp same as HvBattMaxCellTemp + +III If the HvBattMaxCellTempStatus = 2 +HvBattMaxCellTemp = 201 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +HvBattSocPercen +HvBattSocPercenStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage + +II If HvBattSocPercenStatus = 0 + Then Same value of HvBattSocPercen Should be updated in cloud + HvBattSocPercentage Same as HvBattSocPercen + +III If HvBattSocPercenStatus = 2 + HvBattSocPercentage = 101 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +HvBattSocPercen +HvBattSocPercenStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage + +II If HvBattSocPercenStatus = 0 + Then Same value of HvBattSocPercen Should be updated in cloud + HvBattSocPercentage Same as HvBattSocPercen + +III If HvBattSocPercenStatus = 2 + HvBattSocPercentage = 101 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +HvBattSocPercen +HvBattSocPercenStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage + +II If HvBattSocPercenStatus = 0 + Then Same value of HvBattSocPercen Should be updated in cloud + HvBattSocPercentage Same as HvBattSocPercen + +III If HvBattSocPercenStatus = 2 + HvBattSocPercentage = 101 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +HvBattSoh +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage + +II If the HvBattSoh = 0 or 1 + Then HvBattSohPercentage = 0 or 1 Should be updated in cloud + +III II If the HvBattSoh = Except 0 or 1 + Then HvBattSohPercentage =101 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +HvBattSoh +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage + +II If the HvBattSoh = 0 or 1 + Then HvBattSohPercentage = 0 or 1 Should be updated in cloud + +III II If the HvBattSoh = Except 0 or 1 + Then HvBattSohPercentage =101 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +HvBattSoh +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage + +II If the HvBattSoh = 0 or 1 + Then HvBattSohPercentage = 0 or 1 Should be updated in cloud + +III II If the HvBattSoh = Except 0 or 1 + Then HvBattSohPercentage =101 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from SRS +FrPassSBRIndication +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag + +II If the FrPassSBRIndication = 0 + Then CoDriverSeatBeltFlag = 0 SHOULD BE UPDATED IN Cloud + +III If the FrPassSBRIndication = 1 + Then CoDriverSeatBeltFlag = 1 SHOULD BE UPDATED IN Cloud + +IV If the FrPassSBRIndication = Except 0 or 1 + Then CoDriverSeatBeltFlag = 4 SHOULD BE UPDATED IN Cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from SRS +FrPassSBRIndication +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag + +II If the FrPassSBRIndication = 0 + Then CoDriverSeatBeltFlag = 0 SHOULD BE UPDATED IN Cloud + +III If the FrPassSBRIndication = 1 + Then CoDriverSeatBeltFlag = 1 SHOULD BE UPDATED IN Cloud + +IV If the FrPassSBRIndication = Except 0 or 1 + Then CoDriverSeatBeltFlag = 4 SHOULD BE UPDATED IN Cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from SRS +FrPassSBRIndication +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag + +II If the FrPassSBRIndication = 0 + Then CoDriverSeatBeltFlag = 0 SHOULD BE UPDATED IN Cloud + +III If the FrPassSBRIndication = 1 + Then CoDriverSeatBeltFlag = 1 SHOULD BE UPDATED IN Cloud + +IV If the FrPassSBRIndication = Except 0 or 1 + Then CoDriverSeatBeltFlag = 4 SHOULD BE UPDATED IN Cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag + +II If IcSbrDrvrSeatBeltSwitchStatus = 0 + Then DriverSeatBeltFlag = 0 Should be updated in cloud + +III If IcSbrDrvrSeatBeltSwitchStatus = 1 + Then DriverSeatBeltFlag = 1 Should be updated in cloud + + +IV If IcSbrDrvrSeatBeltSwitchStatus = Except 0 or 1 + Then DriverSeatBeltFlag = 4 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag + +II If IcSbrDrvrSeatBeltSwitchStatus = 0 + Then DriverSeatBeltFlag = 0 Should be updated in cloud + +III If IcSbrDrvrSeatBeltSwitchStatus = 1 + Then DriverSeatBeltFlag = 1 Should be updated in cloud + + +IV If IcSbrDrvrSeatBeltSwitchStatus = Except 0 or 1 + Then DriverSeatBeltFlag = 4 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag + +II If IcSbrDrvrSeatBeltSwitchStatus = 0 + Then DriverSeatBeltFlag = 0 Should be updated in cloud + +III If IcSbrDrvrSeatBeltSwitchStatus = 1 + Then DriverSeatBeltFlag = 1 Should be updated in cloud + + +IV If IcSbrDrvrSeatBeltSwitchStatus = Except 0 or 1 + Then DriverSeatBeltFlag = 4 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattKWh from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from Vcu +HvBattPwrConsmp +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattKWh + +II If the HvBattPwrConsmp = In between 0-250 + Then HvBattKWh Should be same as HvBattPwrConsmp + +III If the HvBattPwrConsmp = Out of 0-250 + Then HvBattKWh = 2501 Should be updated in cloud + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattKWh from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state =9 +2 Read the Below signals from Vcu +HvBattPwrConsmp +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattKWh + +II If the HvBattPwrConsmp = In between 0-250 + Then HvBattKWh Should be same as HvBattPwrConsmp + +III If the HvBattPwrConsmp = Out of 0-250 + Then HvBattKWh = 2501 Should be updated in cloud + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattKWh from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state =6 +2 Read the Below signals from Vcu +HvBattPwrConsmp +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattKWh + +II If the HvBattPwrConsmp = In between 0-250 + Then HvBattKWh Should be same as HvBattPwrConsmp + +III If the HvBattPwrConsmp = Out of 0-250 + Then HvBattKWh = 2501 Should be updated in cloud + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty Non EV from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from IPC +cHuDTeInfo +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - Distance to Empty Non EV + II If the IcHuDTeInfo = 0 to 999 + Then Distance to Empty Non EV should be in between 0 to 999 + + III If the IcHuDTeInfo = Out of these range 0 to 999 + Then Distance to Empty Non EV = 1000 Should be updated in cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty Non EV from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from IPC +cHuDTeInfo +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - Distance to Empty Non EV + II If the IcHuDTeInfo = 0 to 999 + Then Distance to Empty Non EV should be in between 0 to 999 + + III If the IcHuDTeInfo = Out of these range 0 to 999 + Then Distance to Empty Non EV = 1000 Should be updated in cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty Non EV from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from IPC +cHuDTeInfo +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - Distance to Empty Non EV + II If the IcHuDTeInfo = 0 to 999 + Then Distance to Empty Non EV should be in between 0 to 999 + + III If the IcHuDTeInfo = Out of these range 0 to 999 + Then Distance to Empty Non EV = 1000 Should be updated in cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive TCuHealthState fromInternal to TCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from Internal to TCM +Internal to TCM = +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TCuHealthState + +II If the Internal to TCM = in between 0 to 8191 +Then TCuHealthState value should be same as Internal to TCM + +III If the Internal to TCM = Out of 0 to 8191 +Then TCuHealthState= 8192 Should be updated in cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive TCuHealthState fromInternal to TCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Read the Below signals from Internal to TCM +Internal to TCM = +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TCuHealthState + +II If the Internal to TCM = in between 0 to 8191 +Then TCuHealthState value should be same as Internal to TCM + +III If the Internal to TCM = Out of 0 to 8191 +Then TCuHealthState= 8192 Should be updated in cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive TCuHealthState fromInternal to TCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from Internal to TCM +Internal to TCM = +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TCuHealthState + +II If the Internal to TCM = in between 0 to 8191 +Then TCuHealthState value should be same as Internal to TCM + +III If the Internal to TCM = Out of 0 to 8191 +Then TCuHealthState= 8192 Should be updated in cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall ReceiveHvBattTemp from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +HvBattTemp +HvBattTempStatus + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -ReceiveHvBattTemp + +II If the HvBattTempStatus = 0 + Then Same value of HvBattTemp Should be updared in cloud + +II If the HvBattTempStatus = 2 + Then HvBattTemp = 81 Should be updared in cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall ReceiveHvBattTemp from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +HvBattTemp +HvBattTempStatus + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -ReceiveHvBattTemp + +II If the HvBattTempStatus = 0 + Then Same value of HvBattTemp Should be updared in cloud + +II If the HvBattTempStatus = 2 + Then HvBattTemp = 81 Should be updared in cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall ReceiveHvBattTemp from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +HvBattTemp +HvBattTempStatus + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -ReceiveHvBattTemp + +II If the HvBattTempStatus = 0 + Then Same value of HvBattTemp Should be updared in cloud + +II If the HvBattTempStatus = 2 + Then HvBattTemp = 81 Should be updared in cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive FuelLevelPercentage from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from IPC +IcHuFuelVolumeInfoPercen +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -FuelLevelPercentageg + +II If IcHuFuelVolumeInfoPercen = in range of 0 TO 100 + Then FuelLevelPercentage Value should be in between 0 t0 100 + +II If IcHuFuelVolumeInfoPercen = out of 100 + Then FuelLevelPercentage = 101 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive FuelLevelPercentage from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from IPC +IcHuFuelVolumeInfoPercen +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -FuelLevelPercentageg + +II If IcHuFuelVolumeInfoPercen = in range of 0 TO 100 + Then FuelLevelPercentage Value should be in between 0 t0 100 + +II If IcHuFuelVolumeInfoPercen = out of 100 + Then FuelLevelPercentage = 101 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive FuelLevelPercentage from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from IPC +IcHuFuelVolumeInfoPercen +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -FuelLevelPercentageg + +II If IcHuFuelVolumeInfoPercen = in range of 0 TO 100 + Then FuelLevelPercentage Value should be in between 0 t0 100 + +II If IcHuFuelVolumeInfoPercen = out of 100 + Then FuelLevelPercentage = 101 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +BatteryHighTemp +BatteryHighTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag + +II. If BatteryHighTempStatus = 0 + Then HvBattHighTempFlag Should be 0 or 1 updated in cloud + +III II. If BatteryHighTempStatus = 2 + Then HvBattHighTempFlag = 4 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive TransmissionMalfunctionFlagl from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +TransServiceIndication +TransServiceIndicationDCT +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TransmissionMalfunctionFlag + +II If TransServiceIndicationDCT = 0 And TransServiceIndication = 0 + TransmissionMalfunctionFlag = 0 Should be updated in cloud + +III If TransServiceIndicationDCT = 1 And TransServiceIndication = 1 + TransmissionMalfunctionFlag = 1 Should be updated in cloud + +IV If TransServiceIndicationDCT = 2 And TransServiceIndication = 2 + TransmissionMalfunctionFlag = 2 Should be updated in cloud + +V If TransSeTransServiceIndicationDCT = Signal not available OR Any other value + TransmissionMalfunctionFlag = 4 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +BatteryHighTemp +BatteryHighTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag + +II. If BatteryHighTempStatus = 0 + Then HvBattHighTempFlag Should be 0 or 1 updated in cloud + +III II. If BatteryHighTempStatus = 2 + Then HvBattHighTempFlag = 4 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +BatteryHighTemp +BatteryHighTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag + +II. If BatteryHighTempStatus = 0 + Then HvBattHighTempFlag Should be 0 or 1 updated in cloud + +III II. If BatteryHighTempStatus = 2 + Then HvBattHighTempFlag = 4 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read Below signals from VCU +DTeInfo +DteInfoStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -Distance to Empty + +II If DteInfoStatus = 0 + Same value of DTeInfo should be updated on cloud + +III If DteInfoStatus = 2 + Distance to Empty = 1000 should be updated on cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read Below signals from VCU +DTeInfo +DteInfoStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -Distance to Empty + +II If DteInfoStatus = 0 + Same value of DTeInfo should be updated on cloud + +III If DteInfoStatus = 2 + Distance to Empty = 1000 should be updated on cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read Below signals from VCU +DTeInfo +DteInfoStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -Distance to Empty + +II If DteInfoStatus = 0 + Same value of DTeInfo should be updated on cloud + +III If DteInfoStatus = 2 + Distance to Empty = 1000 should be updated on cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall export Vehicle Health packet to cloud during Ignition ON state. + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Check the TCU in wake up mode or any event occurs + +Expected Output: + I Verify the TCU is in wake up mode or after receiving the Wake-up SMS from app +II Verify the TCU capture vehicle health feature +III Verify the TCU sends it to the cloud along as a vehicle health data packet as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall export Vehicle Health packet to cloud during Ignition ON state + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Check the TCU in wake up mode +3 TCU receives health check request (RemoteVehicleHealthRefreshCommand) from Cloud + +Expected Output: + I Verify the TCU is in wake up mode or TCU wakes up after receiving the Wake-up SMS from app +II Verify the TCU receives health check request "RemoteVehicleHealthRefreshCommand" from Cloud +III Verify the TCU Wake-up the diagnostics CAN by publishing NM_PDU messages +IV Verify the TCU send a packet of Health data as per TMCVP +V Verify the TCU send "RemoteVehicleHealthRefreshCommandResponse" And after that go in to sleep mode + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall export Vehicle Health packet to cloud during Ignition ON state + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Check the TCU in wake up mode +3 TCU receives health check request (RemoteVehicleHealthRefreshCommand) from Cloud + +Expected Output: + I Verify the TCU is in wake up mode or TCU wakes up after receiving the Wake-up SMS from app +II Verify the TCU receives health check request "RemoteVehicleHealthRefreshCommand" from Cloud +III Verify the TCU Wake-up the diagnostics CAN by publishing NM_PDU messages +IV Verify the TCU send a packet of Health data as per TMCVP +V Verify the TCU send "RemoteVehicleHealthRefreshCommandResponse" And after that go in to sleep mode + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall export Vehicle Health packet to cloud during Ignition ON state + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Check the TCU in wake up mode +3 TCU receives health check request (RemoteVehicleHealthRefreshCommand) from Cloud + +Expected Output: +I Cloud shall wake up TCU over SMS +II Verify the TCU is in wake up mode or TCU wakes up after receiving the Wake-up SMS from app +III Verify the TCU receives health check request "RemoteVehicleHealthRefreshCommand" from Cloud +IV Verify the TCU Wake-up the diagnostics CAN by publishing NM_PDU messages +V Verify the TCU send a packet of Health data as per TMCVP +VII Verify the TCU send "RemoteVehicleHealthRefreshCommandResponse" And after that go in to sleep mode + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall export Vehicle Health packet to cloud during Ignition ON state + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Check the TCU in wake up mode +3 TCU receives health check request (RemoteVehicleHealthRefreshCommand) from Cloud + +Expected Output: + I Verify the TCU is in wake up mode or TCU wakes up after receiving the Wake-up SMS from app +II Verify the TCU receives health check request "RemoteVehicleHealthRefreshCommand" from Cloud +III Verify the TCU Wake-up the diagnostics CAN by publishing NM_PDU messages +IV Verify the TCU send a packet of Health data as per TMCVP +V Verify the TCU send "RemoteVehicleHealthRefreshCommandResponse" And after that go in to sleep mode + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall monitor the TCUBatteryLevelPercentage (TCUBat)and send to Cloud + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Read below signals from VCU +TCUBatteryLevelPercentage = (Signal not available in FD) +3 Verify Cloud details after 1 Mins + +Expected Output: + + I Verify the following details in the Cloud: + a Health Record Element - TCUBatteryLevelPercentage + + +II Verify the Battery Voltage Percentage is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due KM from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read Below signals from IPC +IcHuServReminderKm = Range (0 to 16383) + +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element - Next Service due KM + +II Verify the Service reminder (km) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due KM from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read Below signals from IPC +IcHuServReminderKm = Range (0 to 16383) + +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element - Next Service due KM + +II Verify the Service reminder (km) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due KM from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read Below signals from IPC +IcHuServReminderKm = Range (0 to 16383) + +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element - Next Service due KM + +II Verify the Service reminder (km) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due KM from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read Below signals from IPC +IcHuServReminderKm = Range (0 to 16383) + +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element- Next Service due KM + +II Verify the Service reminder (km) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Read below signals from IPC +IcHuServReminderDaysfull = (Signal range: 0 to 511) + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element- Next Service due Days + +II Verify the Next Service due Days is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read below signals from IPC +IcHuServReminderDaysfull = (Signal range: 0 to 511) + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element - Next Service due Days + +II Verify the Next Service due Days is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read below signals from IPC +IcHuServReminderDaysfull = (Signal range: 0 to 511) + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days + +II Verify the Next Service due Days is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 6 +2 Read the below signals from IPC +IcHuServReminderDaysfull +IcHuServReminderDays +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II As per proirity IcHuServReminderDaysfull should be updated in cloud + + + +III Verify the Next Service due Days is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read signals from IPC +IcHuServReminderDaysfull +IcHuServReminderDays +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II As per proirity IcHuServReminderDaysfull should be updated in cloud + + + +III Verify the Next Service due Days is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read below signals from IPC +IcHuServReminderDaysfull +IcHuServReminderDays +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II As per proirity IcHuServReminderDaysfull should be updated in cloud + + + +III Verify the Next Service due Days is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read signals from IPC +IcHuServReminderDays + +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II.If the IcHuServReminderDaysfull value is 0 then it should be publish IcHuServReminderDays + + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Read signals from IPC +IcHuServReminderDays + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II.If the IcHuServReminderDaysfull value is 0 then it should be publish IcHuServReminderDays + + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Read Below signals from IPC +IcHuServReminderDays + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II.If the IcHuServReminderDaysfull value is 0 then it should be publish IcHuServReminderDays + + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Read Below signals from IPC +IcHuServReminderDays + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II.If the IcHuServReminderDaysfull value is 0 then it should be publish IcHuServReminderDays + + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read Below signals from IPC +IcHuServReminderDays + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II.If the IcHuServReminderDaysfull value is 0 then it should be publish IcHuServReminderDays + + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 + +2 Read below signals from IPC +NextServDueAlert = +0 = Next service is not due +1= Next service is due + +NextServDueAlertStatus +0= Signal not available +2= Plausible + +3 Verify Cloud details after 1 Min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element- NextServiceDueWarningFlag + +II If the NextServDueAlertStatus signal is plausible then NextServiceDueWarning = 1 + +III If the NextServDueAlertStatus signal is implausible then NextServiceDueWarningDefault = 4 + +IV Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 + +2 Read below signals from IPC +NextServDueAlert = +0 = Next service is not due +1= Next service is due + +NextServDueAlertStatus +0= Signal not available +2= Plausible + +3 Verify Cloud details after 1 Min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element- NextServiceDueWarningFlag + +II If the NextServDueAlertStatus signal is plausible then NextServiceDueWarning = 1 + +III If the NextServDueAlertStatus signal is implausible then NextServiceDueWarningDefault = 4 + +IV Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 + +2 Read below signals from IPC +NextServDueAlert = +0 = Next service is not due +1= Next service is due + +NextServDueAlertStatus +0= Signal not available +2= Plausible + +3 Verify Cloud details after 1 Min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element- NextServiceDueWarningFlag + +II If the NextServDueAlertStatus signal is plausible then NextServiceDueWarning = 1 + +III If the NextServDueAlertStatus signal is implausible then NextServiceDueWarningDefault = 4 + +IV Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state =1 + +2 Read below signals from IPC +NextServDueAlert = +0 = Next service is not due +1= Next service is due + +NextServDueAlertStatus +0= Signal not available +2= Plausible + +3 Verify Cloud details after 1 Min + + + +Expected Output: +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: +a Health Record Element- NextServiceDueWarningFlag + +III If the NextServDueAlertStatus signal is plausible then NextServiceDueWarning = 1 + +IV If the NextServDueAlertStatus signal is implausible then NextServiceDueWarningDefault = 4 + +V Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Read below signals from BCM + +HazardLampState +0 = HazardLampState +1= Hazard lamp on + +HazardLampStateStatus +0= Signal is plausible +2= Signal is implausible +3= Signal not available + +3 Verify Cloud details after 50 seconds + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag + +II If the HazardLampStateStatus siganl is plausible then the same value should be updadated in cloud +III If the HazardLampStateStatus siganl is implausible then HazardLampOnFlag should be Default value(4) +IV If the HazardLampStateStatus siganl is Signal not available then HazardLampOnFlag should be Default value(4) + + + +V Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read below signals from BCM + +HazardLampState +0 = HazardLampState +1= Hazard lamp on + +HazardLampStateStatus +0= Signal is plausible +2= Signal is implausible +3= Signal not available + +3 Verify Cloud details after 50 seconds + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag + +II If the HazardLampStateStatus siganl is plausible then the same value should be updadated in cloud +III If the HazardLampStateStatus siganl is implausible then HazardLampOnFlag should be Default value(4) +IV If the HazardLampStateStatus siganl is Signal not available then HazardLampOnFlag should be Default value(4) + + + +V Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 6 +2 Read below signals from BCM + +HazardLampState +0 = HazardLampState +1= Hazard lamp on + +HazardLampStateStatus +0= Signal is plausible +2= Signal is implausible +3= Signal not available + +3 Verify Cloud details after 50 seconds + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag + +II If the HazardLampStateStatus siganl is plausible then the same value should be updadated in cloud +III If the HazardLampStateStatus siganl is implausible then HazardLampOnFlag should be Default value(4) +IV If the HazardLampStateStatus siganl is Signal not available then HazardLampOnFlag should be Default value(4) + + + +V Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read below signals from BCM + +HazardLampState +0 = HazardLampState +1= Hazard lamp on + +HazardLampStateStatus +0= Signal is plausible +2= Signal is implausible +3= Signal not available + +3 Verify Cloud details after 50 seconds + + + +Expected Output: +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag + +III If the HazardLampStateStatus siganl is plausible then the same value should be updadated in cloud +IV If the HazardLampStateStatus siganl is implausible then HazardLampOnFlag should be Default value(4) +V If the HazardLampStateStatus siganl is Signal not available then HazardLampOnFlag should be Default value(4) + + + +VI Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read Below signals from BCM + + PositionLmpTelltale +0=Position lamp off +1=Position lamp On +Signal not available OR Any other value + + PositionLmpTelltaleStatus +0=Value is plausible +3=Signal not available + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag + +II If the PositionLmpTelltaleStatus siganl is plausible then the same value should be updadated in cloud +III If the PositionLmpTelltaleStatus siganl is not available then PositionLampOnDefault = 4 should be updated in cloud +IV Verify the Position Lamp status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read Below signals from BCM + + PositionLmpTelltale +0=Position lamp off +1=Position lamp On +Signal not available OR Any other value + + PositionLmpTelltaleStatus +0=Value is plausible +3=Signal not available + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag + +II If the PositionLmpTelltaleStatus siganl is plausible then the same value should be updadated in cloud +III If the PositionLmpTelltaleStatus siganl is not available then PositionLampOnDefault = 4 should be updated in cloud +IV Verify the Position Lamp status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Read Below signals from BCM + + PositionLmpTelltale +0=Position lamp off +1=Position lamp On +Signal not available OR Any other value + + PositionLmpTelltaleStatus +0=Value is plausible +3=Signal not available + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag + +II If the PositionLmpTelltaleStatus siganl is plausible then the same value should be updadated in cloud +III If the PositionLmpTelltaleStatus siganl is not available then PositionLampOnDefault = 4 should be updated in cloud +IV Verify the Position Lamp status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read Below signals from BCM + + PositionLmpTelltale +0=Position lamp off +1=Position lamp On +Signal not available OR Any other value + + PositionLmpTelltaleStatus +0=Value is plausible +3=Signal not available + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag + +II If the PositionLmpTelltaleStatus siganl is plausible then the same value should be updadated in cloud +III If the PositionLmpTelltaleStatus siganl is not available then PositionLampOnDefault = 4 should be updated in cloud +IV Verify the Position Lamp status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2. Lock the vehicle externally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2. Lock the vehicle externally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2. Lock the vehicle externally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2. Lock the vehicle externally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +III If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 +IV If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +V If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +VI Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2. Lock the vehicle internally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2. Lock the vehicle internally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2. Lock the vehicle internally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2. Lock the vehicle internally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +IV If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +V If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +VI Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2. Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2. Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2. Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2. Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2. Crash Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2. Crash Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2. Crash Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2. Reverse Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2. Reverse Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2. Reverse Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +III If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +IV If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +V If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +VI Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2. Perform TCU Locked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2. Perform TCU Locked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2. Perform TCU Locked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2. Perform TCU Locked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +III If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +IV If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +V If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +VI Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2. Perform TCU unLocked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2. Perform TCU unLocked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2. Perform TCU unLocked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2. Perform TCU unLocked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +III If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +IV If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +V If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +VI Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from BCM +DoorStateDrvr +DoorStateDrvrStatus +3 Verify Cloud details after 1 mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag + +II If the DoorStateDrvrStatus=0 + Then the same value of DoorStateDrvr should be updated in the cloud + RightFrontDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStateDrvrStatus=3 + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStateDrvr= Signal not available OR Any other value + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +V Verify Driver Door switch state Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from BCM +DoorStateDrvr +DoorStateDrvrStatus +3 Verify Cloud details after 1 mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag + +II If the DoorStateDrvrStatus=0 + Then the same value of DoorStateDrvr should be updated in the cloud + RightFrontDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStateDrvrStatus=3 + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStateDrvr= Signal not available OR Any other value + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +V Verify Driver Door switch state Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from BCM +DoorStateDrvr +DoorStateDrvrStatus +3 Verify Cloud details after 1 mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag + +II If the DoorStateDrvrStatus=0 + Then the same value of DoorStateDrvr should be updated in the cloud + RightFrontDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStateDrvrStatus=3 + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStateDrvr= Signal not available OR Any other value + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +V Verify Driver Door switch state Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from BCM +DoorStateDrvr +DoorStateDrvrStatus +3 Verify Cloud details after 1 mins + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag + +III If the DoorStateDrvrStatus=0 + Then the same value of DoorStateDrvr should be updated in the cloud + RightFrontDoorOpenFlag should be 1 or 0 updated in cloud + +IV If the DoorStateDrvrStatus=3 + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +V If the DoorStateDrvr= Signal not available OR Any other value + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +VI Verify Driver Door switch state Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from BCM +DoorStatePass +DoorStatePassStatus +3 Verify Cloud details after 1 Mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LeftFrontDoorOpenFlag + +II If the DoorStatePassStatus =0 + Then the same value of DoorStatePass should be updated in the cloud + LeftFrontDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStatePassStatus =3 + Then LeftFrontDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStatePass= Signal not available OR Any other value + Then LeftFrontDoorOpenFlag= 4 should be updadated in the cloud + +V Verify Co-driver Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from BCM +DoorStatePass +DoorStatePassStatus +3 Verify Cloud details after 1 Mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LeftFrontDoorOpenFlag + +II If the DoorStatePassStatus =0 + Then the same value of DoorStatePass should be updated in the cloud + LeftFrontDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStatePassStatus =3 + Then LeftFrontDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStatePass= Signal not available OR Any other value + Then LeftFrontDoorOpenFlag= 4 should be updadated in the cloud + +V Verify Co-driver Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from BCM +DoorStatePass +DoorStatePassStatus +3 Verify Cloud details after 1 Mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LeftFrontDoorOpenFlag + +II If the DoorStatePassStatus =0 + Then the same value of DoorStatePass should be updated in the cloud + LeftFrontDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStatePassStatus =3 + Then LeftFrontDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStatePass= Signal not available OR Any other value + Then LeftFrontDoorOpenFlag= 4 should be updadated in the cloud + +V Verify Co-driver Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from BCM +DoorStatePass +DoorStatePassStatus +3 Verify Cloud details after 1 Mins + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element -LeftFrontDoorOpenFlag + +III If the DoorStatePassStatus =0 + Then the same value of DoorStatePass should be updated in the cloud + LeftFrontDoorOpenFlag should be 1 or 0 updated in cloud + +IV If the DoorStatePassStatus =3 + Then LeftFrontDoorOpenFlag = 4 should be updadated in the cloud + +V If the DoorStatePass= Signal not available OR Any other value + Then LeftFrontDoorOpenFlag= 4 should be updadated in the cloud + +VI Verify Co-driver Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 read the below signals from BCM +DoorstaterearRH +DoorStateRearRHStatus +3 Verify Cloud details after 10 Sec + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RightRearDoorOpenFlag + +II If the DoorStateRearRHStatus =0 + Then the same value of DoorStateRearRH should be updated in the cloud + RightRearDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStateRearRHStatus =3 + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStateRearRH = Signal not available OR Any other value + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +V Verify Rear right door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 read the below signals from BCM +DoorstaterearRH +DoorStateRearRHStatus +3 Verify Cloud details after 10 Sec + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RightRearDoorOpenFlag + +II If the DoorStateRearRHStatus =0 + Then the same value of DoorStateRearRH should be updated in the cloud + RightRearDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStateRearRHStatus =3 + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStateRearRH = Signal not available OR Any other value + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +V Verify Rear right door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 read the below signals from BCM +DoorstaterearRH +DoorStateRearRHStatus +3 Verify Cloud details after 10 Sec + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RightRearDoorOpenFlag + +II If the DoorStateRearRHStatus =0 + Then the same value of DoorStateRearRH should be updated in the cloud + RightRearDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStateRearRHStatus =3 + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStateRearRH = Signal not available OR Any other value + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +V Verify Rear right door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 read the below signals from BCM +DoorstaterearRH +DoorStateRearRHStatus +3 Verify Cloud details after 10 Sec + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element -RightRearDoorOpenFlag + +III If the DoorStateRearRHStatus =0 + Then the same value of DoorStateRearRH should be updated in the cloud + RightRearDoorOpenFlag should be 1 or 0 updated in cloud + +IV If the DoorStateRearRHStatus =3 + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +V If the DoorStateRearRH = Signal not available OR Any other value + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +VI Verify Rear right door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from BCM +DoorstaterearLH +DoorstaterearLHStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LeftRearDoorOpenFlag + +II If the DoorStateRearLHStatus =0 + Then the same value of DoorstaterearLH should be updated in the cloud + LeftRearDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorstaterearLHStatus =3 + Then the LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +IV If the DoorstaterearLH= Signal not available OR Any other value + Then LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +V Verify Rear left Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from BCM +DoorstaterearLH +DoorstaterearLHStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LeftRearDoorOpenFlag + +II If the DoorStateRearLHStatus =0 + Then the same value of DoorstaterearLH should be updated in the cloud + LeftRearDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorstaterearLHStatus =3 + Then the LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +IV If the DoorstaterearLH= Signal not available OR Any other value + Then LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +V Verify Rear left Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from BCM +DoorstaterearLH +DoorstaterearLHStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LeftRearDoorOpenFlag + +II If the DoorStateRearLHStatus =0 + Then the same value of DoorstaterearLH should be updated in the cloud + LeftRearDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorstaterearLHStatus =3 + Then the LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +IV If the DoorstaterearLH= Signal not available OR Any other value + Then LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +V Verify Rear left Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from BCM +DoorstaterearLH +DoorstaterearLHStatus +3 Verify Cloud details after 1 min + + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element -LeftRearDoorOpenFlag + +III If the DoorStateRearLHStatus =0 + Then the same value of DoorstaterearLH should be updated in the cloud + LeftRearDoorOpenFlag should be 1 or 0 updated in cloud + +IV If the DoorstaterearLHStatus =3 + Then the LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +V If the DoorstaterearLH= Signal not available OR Any other value + Then LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +VI Verify Rear left Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from BCM +TailgateState +TailgateStateStatus +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TailGateOpenFlag + +II If the TailgateStateStatus=0 + Then the same value of TailgateState should be updated in the cloud + TailGateOpenFlag should be 1 or 0 updated in cloud + +III If the TailgateStateStatus =3 + Then the TailGateOpenFlag = 4 should be updadated in the cloud + +IV If the TailgateState = Signal not available OR Any other value + Then TailGateOpenFlag= 4 should be updadated in the cloud + +V Verify Tail gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from BCM +TailgateState +TailgateStateStatus +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TailGateOpenFlag + +II If the TailgateStateStatus=0 + Then the same value of TailgateState should be updated in the cloud + TailGateOpenFlag should be 1 or 0 updated in cloud + +III If the TailgateStateStatus =3 + Then the TailGateOpenFlag = 4 should be updadated in the cloud + +IV If the TailgateState = Signal not available OR Any other value + Then TailGateOpenFlag= 4 should be updadated in the cloud + +V Verify Tail gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from BCM +TailgateState +TailgateStateStatus +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TailGateOpenFlag + +II If the TailgateStateStatus=0 + Then the same value of TailgateState should be updated in the cloud + TailGateOpenFlag should be 1 or 0 updated in cloud + +III If the TailgateStateStatus =3 + Then the TailGateOpenFlag = 4 should be updadated in the cloud + +IV If the TailgateState = Signal not available OR Any other value + Then TailGateOpenFlag= 4 should be updadated in the cloud + +V Verify Tail gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from BCM +TailgateState +TailgateStateStatus +3 Verify Cloud details after 2 min + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element -TailGateOpenFlag + +III If the TailgateStateStatus=0 + Then the same value of TailgateState should be updated in the cloud + TailGateOpenFlag should be 1 or 0 updated in cloud + +IV If the TailgateStateStatus =3 + Then the TailGateOpenFlag = 4 should be updadated in the cloud + +V If the TailgateState = Signal not available OR Any other value + Then TailGateOpenFlag= 4 should be updadated in the cloud + +VI Verify Tail gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the below signals from BCM +BonnetState +BonnetStateStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -BonnetOpenFlag + +II If the BonnetStateStatus=0 + Then the same value of BonnetState should be updated in the cloud + BonnetOpenFlag should be 1 or 0 updated in cloud + +III If the BonnetStateStatus =3 + Then the BonnetOpenFlag = 4 should be updadated in the cloud + +IV If the BonnetState = Signal not available OR Any other value + Then BonnetOpenFlag = 4 should be updadated in the cloud + +V Verify Bonnet gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the below signals from BCM +BonnetState +BonnetStateStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -BonnetOpenFlag + +II If the BonnetStateStatus=0 + Then the same value of BonnetState should be updated in the cloud + BonnetOpenFlag should be 1 or 0 updated in cloud + +III If the BonnetStateStatus =3 + Then the BonnetOpenFlag = 4 should be updadated in the cloud + +IV If the BonnetState = Signal not available OR Any other value + Then BonnetOpenFlag = 4 should be updadated in the cloud + +V Verify Bonnet gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the below signals from BCM +BonnetState +BonnetStateStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -BonnetOpenFlag + +II If the BonnetStateStatus=0 + Then the same value of BonnetState should be updated in the cloud + BonnetOpenFlag should be 1 or 0 updated in cloud + +III If the BonnetStateStatus =3 + Then the BonnetOpenFlag = 4 should be updadated in the cloud + +IV If the BonnetState = Signal not available OR Any other value + Then BonnetOpenFlag = 4 should be updadated in the cloud + +V Verify Bonnet gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the below signals from BCM +BonnetState +BonnetStateStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element -BonnetOpenFlag + +III If the BonnetStateStatus=0 + Then the same value of BonnetState should be updated in the cloud + BonnetOpenFlag should be 1 or 0 updated in cloud + +IV If the BonnetStateStatus =3 + Then the BonnetOpenFlag = 4 should be updadated in the cloud + +V If the BonnetState = Signal not available OR Any other value + Then BonnetOpenFlag = 4 should be updadated in the cloud + +VI Verify Bonnet gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode Active +Powermode state = 6 +2 Read the Below signals from BCM + HighbeamTelltale + HighBeamTelltaleStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HighBeamLampOnFlag + +II If the HighBeamTelltaleStatus=0 + Then the same value of HighBeamTelltale should be updated in the cloud + HighBeamLampOnFlag should be 1 or 0 updated in cloud + +III If the HighBeamTelltaleStatus =3 + Then the HighBeamLampOnFlag = 4 should be updadated in the cloud + +IV If theHighBeamTelltale = Signal not available OR Any other value + Then HighBeamLampOnFlag = 4 should be updadated in the cloud + +V Verify High Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode Run +Powermode state = 8 +2 Read the Below signals from BCM + HighbeamTelltale + HighBeamTelltaleStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HighBeamLampOnFlag + +II If the HighBeamTelltaleStatus=0 + Then the same value of HighBeamTelltale should be updated in the cloud + HighBeamLampOnFlag should be 1 or 0 updated in cloud + +III If the HighBeamTelltaleStatus =3 + Then the HighBeamLampOnFlag = 4 should be updadated in the cloud + +IV If theHighBeamTelltale = Signal not available OR Any other value + Then HighBeamLampOnFlag = 4 should be updadated in the cloud + +V Verify High Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode Crank +Powermode state = 9 +2 Read the Below signals from BCM + HighbeamTelltale + HighBeamTelltaleStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HighBeamLampOnFlag + +II If the HighBeamTelltaleStatus=0 + Then the same value of HighBeamTelltale should be updated in the cloud + HighBeamLampOnFlag should be 1 or 0 updated in cloud + +III If the HighBeamTelltaleStatus =3 + Then the HighBeamLampOnFlag = 4 should be updadated in the cloud + +IV If theHighBeamTelltale = Signal not available OR Any other value + Then HighBeamLampOnFlag = 4 should be updadated in the cloud + +V Verify High Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode Awake +Powermode state = 1 +2 Read the Below signals from BCM + HighbeamTelltale + HighBeamTelltaleStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element -HighBeamLampOnFlag + +III If the HighBeamTelltaleStatus=0 + Then the same value of HighBeamTelltale should be updated in the cloud + HighBeamLampOnFlag should be 1 or 0 updated in cloud + +IV If the HighBeamTelltaleStatus =3 + Then the HighBeamLampOnFlag = 4 should be updadated in the cloud + +V If theHighBeamTelltale = Signal not available OR Any other value + Then HighBeamLampOnFlag = 4 should be updadated in the cloud + +VI Verify High Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set Read the below signals from BCM + LowbeamTelltale + LowbeamTelltaleStatus +3 Verify Cloud details after 3 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowBeamLampOnFlag + +II If the LowBeamTellTaleStatus=0 + Then the same value of LowBeamTellTale should be updated in the cloud + LowBeamLampOnFlag should be 1 or 0 updated in cloud + +III If the LowBeamTellTaleStatus =3 + Then the LowBeamLampOnFlag = 4 should be updadated in the cloud + +IV If theHighBeamTelltale = Signal not available OR Any other value + Then LowBeamLampOnFlag = 4 should be updadated in the cloud + +V VVerify Low Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set Read the below signals from BCM + LowbeamTelltale + LowbeamTelltaleStatus +3 Verify Cloud details after 3 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowBeamLampOnFlag + +II If the LowBeamTellTaleStatus=0 + Then the same value of LowBeamTellTale should be updated in the cloud + LowBeamLampOnFlag should be 1 or 0 updated in cloud + +III If the LowBeamTellTaleStatus =3 + Then the LowBeamLampOnFlag = 4 should be updadated in the cloud + +IV If theHighBeamTelltale = Signal not available OR Any other value + Then LowBeamLampOnFlag = 4 should be updadated in the cloud + +V Verify Low Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set Read the below signals from BCM + LowbeamTelltale + LowbeamTelltaleStatus +3 Verify Cloud details after 3 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowBeamLampOnFlag + +II If the LowBeamTellTaleStatus=0 + Then the same value of LowBeamTellTale should be updated in the cloud + LowBeamLampOnFlag should be 1 or 0 updated in cloud + +III If the LowBeamTellTaleStatus =3 + Then the LowBeamLampOnFlag = 4 should be updadated in the cloud + +IV If theHighBeamTelltale = Signal not available OR Any other value + Then LowBeamLampOnFlag = 4 should be updadated in the cloud + +V Verify Low Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Set Read the below signals from BCM + LowbeamTelltale + LowbeamTelltaleStatus +3 Verify Cloud details after 3 min + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element -LowBeamLampOnFlag + +III If the LowBeamTellTaleStatus=0 + Then the same value of LowBeamTellTale should be updated in the cloud + LowBeamLampOnFlag should be 1 or 0 updated in cloud + +IV If the LowBeamTellTaleStatus =3 + Then the LowBeamLampOnFlag = 4 should be updadated in the cloud + +V If theHighBeamTelltale = Signal not available OR Any other value + Then LowBeamLampOnFlag = 4 should be updadated in the cloud + +VI Verify Low Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read teh Below signals from EPAS +EPAsStatus +EPAsStatusGen2 + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag + + +II If the EPAsStatusGen2 = 0 + Then the same value EPAsStatus should be updated in cloud + EPAsStateFlag should be 0 or 2 + +III If the EPAsStatusGen2 =2 + Then the EPAsStateFlag = 4 Should be updated in cloud + +IV Verify EPAS status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read teh Below signals from EPAS +EPAsStatus +EPAsStatusGen2 + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag + + +II If the EPAsStatusGen2 = 0 + Then the same value EPAsStatus should be updated in cloud + EPAsStateFlag should be 0 or 2 + +III If the EPAsStatusGen2 =2 + Then the EPAsStateFlag = 4 Should be updated in cloud + +IV Verify EPAS status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read teh Below signals from EPAS +EPAsStatus +EPAsStatusGen2 + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag + + +II If the EPAsStatusGen2 = 0 + Then the same value EPAsStatus should be updated in cloud + EPAsStateFlag should be 0 or 2 + +III If the EPAsStatusGen2 =2 + Then the EPAsStateFlag = 4 Should be updated in cloud + +IV Verify EPAS status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read teh Below signals from EPAS +EPAsStatus +EPAsStatusGen2 + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag + + +II If the EPAsStatusGen2 = 0 + Then the same value EPAsStatus should be updated in cloud + EPAsStateFlag should be 0 or 2 + +III If the EPAsStatusGen2 =2 + Then the EPAsStateFlag = 4 Should be updated in cloud + +IV Verify EPAS status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the below signal from ABS + ABsStatus + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag + +II If the AbsStatus = 0 + Then AbsStateFlag = 0 Should be updated in cloud + +III If the AbsStatus = 1 OR 3 + Then AbsStateFlag = 4 Should be updated in cloud + +IV If the AbsStatus = 2 + Then AbsStateFlag = 2 Should be updated in cloud + +V Verify ABS status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the below signal from ABS + ABsStatus + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag + +II If the AbsStatus = 0 + Then AbsStateFlag = 0 Should be updated in cloud + +III If the AbsStatus = 1 OR 3 + Then AbsStateFlag = 4 Should be updated in cloud + +IV If the AbsStatus = 2 + Then AbsStateFlag = 2 Should be updated in cloud + +V Verify ABS status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the below signal from ABS + ABsStatus + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag + +II If the AbsStatus = 0 + Then AbsStateFlag = 0 Should be updated in cloud + +III If the AbsStatus = 1 OR 3 + Then AbsStateFlag = 4 Should be updated in cloud + +IV If the AbsStatus = 2 + Then AbsStateFlag = 2 Should be updated in cloud + +V Verify ABS status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the below signal from ABS + ABsStatus + 3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag + +III If the AbsStatus = 0 + Then AbsStateFlag = 0 Should be updated in cloud + +IV If the AbsStatus = 1 OR 3 + Then AbsStateFlag = 4 Should be updated in cloud + +V If the AbsStatus = 2 + Then AbsStateFlag = 2 Should be updated in cloud + +VI Verify ABS status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signal from SRS +SRSWarningLamp + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag + +II If the SRSWarningLamp = 0 + Then SrsWarningLampFlag = 0 Should be updated in cloud + +III If the SRSWarningLamp= 1 + Then SrsWarningLampFlag = 1 Should be updated in cloud + +IV If the SRSWarningLamp = Signal not available OR Any other + Then SrsWarningLampFlag = 4 Should be updated in cloud + +V Verify AWL warning lamp status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signal from SRS +SRSWarningLamp + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag + +II If the SRSWarningLamp = 0 + Then SrsWarningLampFlag = 0 Should be updated in cloud + +III If the SRSWarningLamp= 1 + Then SrsWarningLampFlag = 1 Should be updated in cloud + +IV If the SRSWarningLamp = Signal not available OR Any other + Then SrsWarningLampFlag = 4 Should be updated in cloud + +V Verify AWL warning lamp status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signal from SRS +SRSWarningLamp + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag + +II If the SRSWarningLamp = 0 + Then SrsWarningLampFlag = 0 Should be updated in cloud + +III If the SRSWarningLamp= 1 + Then SrsWarningLampFlag = 1 Should be updated in cloud + +IV If the SRSWarningLamp = Signal not available OR Any other + Then SrsWarningLampFlag = 4 Should be updated in cloud + +V Verify AWL warning lamp status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signal from SRS +SRSWarningLamp + + 3 Verify Cloud details after 1 mins + + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag + +III If the SRSWarningLamp = 0 + Then SrsWarningLampFlag = 0 Should be updated in cloud + +IV If the SRSWarningLamp= 1 + Then SrsWarningLampFlag = 1 Should be updated in cloud + +V If the SRSWarningLamp = Signal not available OR Any other + Then SrsWarningLampFlag = 4 Should be updated in cloud + +VI Verify AWL warning lamp status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read below signal from PEPS +PEPsKeyInState +3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -PepsKeyInVehicleFlag + +II If the PEPsKeyInState = 0 + Then PepsKeyInVehicleFlag = 0 Should be updated in cloud + +III If the PEPsKeyInState = 1 + Then PepsKeyInVehicleFlag = 1 Should be updated in cloud + +IV If the PEPsKeyInState = Signal not available OR Any other value + Then PepsKeyInVehicleFlag = 4 Should be updated in cloud + +V Verify Key Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read below signal from PEPS +PEPsKeyInState +3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -PepsKeyInVehicleFlag + +II If the PEPsKeyInState = 0 + Then PepsKeyInVehicleFlag = 0 Should be updated in cloud + +III If the PEPsKeyInState = 1 + Then PepsKeyInVehicleFlag = 1 Should be updated in cloud + +IV If the PEPsKeyInState = Signal not available OR Any other value + Then PepsKeyInVehicleFlag = 4 Should be updated in cloud + +V Verify Key Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read below signal from PEPS +PEPsKeyInState +3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -PepsKeyInVehicleFlag + +II If the PEPsKeyInState = 0 + Then PepsKeyInVehicleFlag = 0 Should be updated in cloud + +III If the PEPsKeyInState = 1 + Then PepsKeyInVehicleFlag = 1 Should be updated in cloud + +IV If the PEPsKeyInState = Signal not available OR Any other value + Then PepsKeyInVehicleFlag = 4 Should be updated in cloud + +V Verify Key Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read below signal from PEPS +PEPsKeyInState +3 Verify Cloud details after 3 min + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element -PepsKeyInVehicleFlag + +III If the PEPsKeyInState = 0 + Then PepsKeyInVehicleFlag = 0 Should be updated in cloud + +IV If the PEPsKeyInState = 1 + Then PepsKeyInVehicleFlag = 1 Should be updated in cloud + +V If the PEPsKeyInState = Signal not available OR Any other value + Then PepsKeyInVehicleFlag = 4 Should be updated in cloud + +VI Verify Key Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in hrs) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the below signals from VCU +TimetoChargeHVHours = (Range: 0 to 23) +TimetoChargeHVHoursStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Element - TimeToChargeHour + +II If the TimetoChargeHVHoursStatus = 0 + Then same value of TimetoChargeHVHours should be updated in cloud. + TimeToChargeHour should be same as TimetoChargeHVHours + +III If the TimetoChargeHVHoursStatus = 2 + Then TimeToChargeHour = 24 Should be updated in cloud + +IV Verify Time to charge (Hrs) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in hrs) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the below signals from VCU +TimetoChargeHVHours = (Range: 0 to 23) +TimetoChargeHVHoursStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Element - TimeToChargeHour + +II If the TimetoChargeHVHoursStatus = 0 + Then same value of TimetoChargeHVHours should be updated in cloud. + TimeToChargeHour should be same as TimetoChargeHVHours + +III If the TimetoChargeHVHoursStatus = 2 + Then TimeToChargeHour = 24 Should be updated in cloud + +IV Verify Time to charge (Hrs) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in hrs) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the below signals from VCU +TimetoChargeHVHours = (Range: 0 to 23) +TimetoChargeHVHoursStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Element - TimeToChargeHour + +II If the TimetoChargeHVHoursStatus = 0 + Then same value of TimetoChargeHVHours should be updated in cloud. + TimeToChargeHour should be same as TimetoChargeHVHours + +III If the TimetoChargeHVHoursStatus = 2 + Then TimeToChargeHour = 24 Should be updated in cloud + +IV Verify Time to charge (Hrs) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in hrs) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the below signals from VCU +TimetoChargeHVHours = (Range: 0 to 23) +TimetoChargeHVHoursStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Element - TimeToChargeHour + +III If the TimetoChargeHVHoursStatus = 0 + Then same value of TimetoChargeHVHours should be updated in cloud. + TimeToChargeHour should be same as TimetoChargeHVHours + +IV If the TimetoChargeHVHoursStatus = 2 + Then TimeToChargeHour = 24 Should be updated in cloud + +V Verify Time to charge (Hrs) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in mins) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the below signals from VCU + TimetoChargeHVMints + TimetoChargeHVMintsStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Element - TimeToChargeMinute + +II If the TimetoChargeHVMintsStatus = 0 + Then same value of TimetoChargeHVMints should be updated in cloud. + TimeToChargeMinute should be same as TimetoChargeHVMints + +III If the TimetoChargeHVMintsStatus = 2 + Then TimeToChargeMinute = 24 Should be updated in cloud + +IV Verify Time to charge (minutes) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in mins) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the below signals from VCU + TimetoChargeHVMints + TimetoChargeHVMintsStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Element - TimeToChargeMinute + +II If the TimetoChargeHVMintsStatus = 0 + Then same value of TimetoChargeHVMints should be updated in cloud. + TimeToChargeMinute should be same as TimetoChargeHVMints + +III If the TimetoChargeHVMintsStatus = 2 + Then TimeToChargeMinute = 24 Should be updated in cloud + +IV Verify Time to charge (minutes) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in mins) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the below signals from VCU + TimetoChargeHVMints + TimetoChargeHVMintsStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Element - TimeToChargeMinute + +II If the TimetoChargeHVMintsStatus = 0 + Then same value of TimetoChargeHVMints should be updated in cloud. + TimeToChargeMinute should be same as TimetoChargeHVMints + +III If the TimetoChargeHVMintsStatus = 2 + Then TimeToChargeMinute = 24 Should be updated in cloud + +IV Verify Time to charge (minutes) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in mins) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the below signals from VCU + TimetoChargeHVMints + TimetoChargeHVMintsStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Element - TimeToChargeMinute + +III If the TimetoChargeHVMintsStatus = 0 + Then same value of TimetoChargeHVMints should be updated in cloud. + TimeToChargeMinute should be same as TimetoChargeHVMints + +IV If the TimetoChargeHVMintsStatus = 2 + Then TimeToChargeMinute = 24 Should be updated in cloud + +V Verify Time to charge (minutes) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3 Verify Cloud details after 1 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale + +II. If the BatteryHighTempStatus = 0 + Then the same value of BatteryHighTemp should be updated in cloud + HighTemperatureTelltale value should be same as BatteryHighTemp + +III If the BatteryHighTempStatus = 2 + Then HighTemperatureTelltale = 5 Should be updated in cloud + +IV Verify High Temperature Telltale Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3 Verify Cloud details after 1 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale + +II. If the BatteryHighTempStatus = 0 + Then the same value of BatteryHighTemp should be updated in cloud + HighTemperatureTelltale value should be same as BatteryHighTemp + +III If the BatteryHighTempStatus = 2 + Then HighTemperatureTelltale = 5 Should be updated in cloud + +IV Verify High Temperature Telltale Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3 Verify Cloud details after 1 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale + +II. If the BatteryHighTempStatus = 0 + Then the same value of BatteryHighTemp should be updated in cloud + HighTemperatureTelltale value should be same as BatteryHighTemp + +III If the BatteryHighTempStatus = 2 + Then HighTemperatureTelltale = 5 Should be updated in cloud + +IV Verify High Temperature Telltale Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3 Verify Cloud details after 1 Min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale + +III. If the BatteryHighTempStatus = 0 + Then the same value of BatteryHighTemp should be updated in cloud + HighTemperatureTelltale value should be same as BatteryHighTemp + +IV If the BatteryHighTempStatus = 2 + Then HighTemperatureTelltale = 5 Should be updated in cloud + +V Verify High Temperature Telltale Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU + HVChargerConnected + HVChargerConnectedStatus +3 Verify Cloud details after 2 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag + +II If the HVChargerConnectedStatus = 0 + Then the same value of HVChargerConnected should be updated in cloud + HvChargerConnectFlag Value should be same as HVChargerConnected + +III If the HVChargerConnectedStatus = 2 + Then HvChargerConnectFlag = 4 Should be updated in cloud + +IV If HVChargerConnected = 3 or Signal not available OR Any other value + Then HvChargerConnectFlag = 4 Should be updated in cloud + +V Verify HV battery charging status Information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU + HVChargerConnected + HVChargerConnectedStatus +3 Verify Cloud details after 2 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag + +II If the HVChargerConnectedStatus = 0 + Then the same value of HVChargerConnected should be updated in cloud + HvChargerConnectFlag Value should be same as HVChargerConnected + +III If the HVChargerConnectedStatus = 2 + Then HvChargerConnectFlag = 4 Should be updated in cloud + +IV If HVChargerConnected = 3 or Signal not available OR Any other value + Then HvChargerConnectFlag = 4 Should be updated in cloud + +V Verify HV battery charging status Information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU + HVChargerConnected + HVChargerConnectedStatus +3 Verify Cloud details after 2 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag + +II If the HVChargerConnectedStatus = 0 + Then the same value of HVChargerConnected should be updated in cloud + HvChargerConnectFlag Value should be same as HVChargerConnected + +III If the HVChargerConnectedStatus = 2 + Then HvChargerConnectFlag = 4 Should be updated in cloud + +IV If HVChargerConnected = 3 or Signal not available OR Any other value + Then HvChargerConnectFlag = 4 Should be updated in cloud + +V Verify HV battery charging status Information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU + HVChargerConnected + HVChargerConnectedStatus +3 Verify Cloud details after 2 Min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag + +III If the HVChargerConnectedStatus = 0 + Then the same value of HVChargerConnected should be updated in cloud + HvChargerConnectFlag Value should be same as HVChargerConnected + +IV If the HVChargerConnectedStatus = 2 + Then HvChargerConnectFlag = 4 Should be updated in cloud + +V If HVChargerConnected = 3 or Signal not available OR Any other value + Then HvChargerConnectFlag = 4 Should be updated in cloud + +VI Verify HV battery charging status Information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Charge Status information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU + LowHVBatteryCharge +3 Verify Cloud details after 1 minonds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =0 + +II If the LowHVBatteryCharge = 0 + Then LowHvBattChargeFlag = 0 Should be updated in cloud + +IiI If the LowHVBatteryCharge = 1 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +IV If the LowHVBatteryCharge = 2 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +V If the LowHVBatteryCharge = 3 + Then LowHvBattChargeFlag = 4 Should be updated in cloud + +VI Verify High Voltage battery Charge status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Charge Status information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU + LowHVBatteryCharge +3 Verify Cloud details after 1 minonds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =0 + +II If the LowHVBatteryCharge = 0 + Then LowHvBattChargeFlag = 0 Should be updated in cloud + +IiI If the LowHVBatteryCharge = 1 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +IV If the LowHVBatteryCharge = 2 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +V If the LowHVBatteryCharge = 3 + Then LowHvBattChargeFlag = 4 Should be updated in cloud + +VI Verify High Voltage battery Charge status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Charge Status information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU + LowHVBatteryCharge +3 Verify Cloud details after 1 minonds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =0 + +II If the LowHVBatteryCharge = 0 + Then LowHvBattChargeFlag = 0 Should be updated in cloud + +IiI If the LowHVBatteryCharge = 1 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +IV If the LowHVBatteryCharge = 2 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +V If the LowHVBatteryCharge = 3 + Then LowHvBattChargeFlag = 4 Should be updated in cloud + +VI Verify High Voltage battery Charge status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Charge Status information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU + LowHVBatteryCharge +3 Verify Cloud details after 1 minonds + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =0 + +III If the LowHVBatteryCharge = 0 + Then LowHvBattChargeFlag = 0 Should be updated in cloud + +IV If the LowHVBatteryCharge = 1 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +V If the LowHVBatteryCharge = 2 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +VI If the LowHVBatteryCharge = 3 + Then LowHvBattChargeFlag = 4 Should be updated in cloud + +VII Verify High Voltage battery Charge status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Drive motor status information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU + DriveMotorStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag + +II If the DriveMotorStatus = 0 + Then DriveMotorStatusFlag = 0 Should be updated in cloud + +II If the DriveMotorStatus = 1 + Then DriveMotorStatusFlag = 1 Should be updated in cloud + +IV II If the DriveMotorStatus = Signal not available OR Any other value + Then DriveMotorStatusFlag = 4 Should be updated in cloud + +V Verify Drive motor status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Drive motor status information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU + DriveMotorStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag + +II If the DriveMotorStatus = 0 + Then DriveMotorStatusFlag = 0 Should be updated in cloud + +II If the DriveMotorStatus = 1 + Then DriveMotorStatusFlag = 1 Should be updated in cloud + +IV II If the DriveMotorStatus = Signal not available OR Any other value + Then DriveMotorStatusFlag = 4 Should be updated in cloud + +V Verify Drive motor status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Drive motor status information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU + DriveMotorStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag + +II If the DriveMotorStatus = 0 + Then DriveMotorStatusFlag = 0 Should be updated in cloud + +II If the DriveMotorStatus = 1 + Then DriveMotorStatusFlag = 1 Should be updated in cloud + +IV II If the DriveMotorStatus = Signal not available OR Any other value + Then DriveMotorStatusFlag = 4 Should be updated in cloud + +V Verify Drive motor status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Drive motor status information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU + DriveMotorStatus +3 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag + +III If the DriveMotorStatus = 0 + Then DriveMotorStatusFlag = 0 Should be updated in cloud + +IV If the DriveMotorStatus = 1 + Then DriveMotorStatusFlag = 1 Should be updated in cloud + +V II If the DriveMotorStatus = Signal not available OR Any other value + Then DriveMotorStatusFlag = 4 Should be updated in cloud + +VI Verify Drive motor status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Brake Vaccume Pump Status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signal from VCU + BrkVaccumePumpStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag + +II If the BrkVacPumpStatus = 0 + Then BrkVaccumePumpStatusFlag = 0 Should be updated in cloud + +II If the BrkVacPumpStatus = 1 + Then BrkVaccumePumpStatusFlag = 1 Should be updated in cloud + +IV II If the BrkVacPumpStatus = Signal not available OR Any other value + Then BrkVaccumePumpStatusFlag = 4 Should be updated in cloud + +V Verify Brake Vaccume Pump Status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Brake Vaccume Pump Status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signal from VCU + BrkVaccumePumpStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag + +II If the BrkVacPumpStatus = 0 + Then BrkVaccumePumpStatusFlag = 0 Should be updated in cloud + +II If the BrkVacPumpStatus = 1 + Then BrkVaccumePumpStatusFlag = 1 Should be updated in cloud + +IV II If the BrkVacPumpStatus = Signal not available OR Any other value + Then BrkVaccumePumpStatusFlag = 4 Should be updated in cloud + +V Verify Brake Vaccume Pump Status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Brake Vaccume Pump Status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signal from VCU + BrkVaccumePumpStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag + +II If the BrkVacPumpStatus = 0 + Then BrkVaccumePumpStatusFlag = 0 Should be updated in cloud + +II If the BrkVacPumpStatus = 1 + Then BrkVaccumePumpStatusFlag = 1 Should be updated in cloud + +IV II If the BrkVacPumpStatus = Signal not available OR Any other value + Then BrkVaccumePumpStatusFlag = 4 Should be updated in cloud + +V Verify Brake Vaccume Pump Status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Brake Vaccume Pump Status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signal from VCU + BrkVaccumePumpStatus +3 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag + +III If the BrkVacPumpStatus = 0 + Then BrkVaccumePumpStatusFlag = 0 Should be updated in cloud + +IV If the BrkVacPumpStatus = 1 + Then BrkVaccumePumpStatusFlag = 1 Should be updated in cloud + +V II If the BrkVacPumpStatus = Signal not available OR Any other value + Then BrkVaccumePumpStatusFlag = 4 Should be updated in cloud + +VI Verify Brake Vaccume Pump Status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from IPC +IcHuBatteryChargingState +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus + +II If theIcHuBatteryChargingState = 0 + LvBatteryChargingStatus = 0 Should be updated in cloud + +II If theIcHuBatteryChargingState = 1 + LvBatteryChargingStatus = 1 Should be updated in cloud + +III If theIcHuBatteryChargingState = 2 + LvBatteryChargingStatus =2 Should be updated in cloud + +III If theIcHuBatteryChargingState = 3 + LvBatteryChargingStatus = 5 Should be updated in cloud + +IV Verify Lv Battery Charging Status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from IPC +IcHuBatteryChargingState +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus + +II If theIcHuBatteryChargingState = 0 + LvBatteryChargingStatus = 0 Should be updated in cloud + +II If theIcHuBatteryChargingState = 1 + LvBatteryChargingStatus = 1 Should be updated in cloud + +III If theIcHuBatteryChargingState = 2 + LvBatteryChargingStatus =2 Should be updated in cloud + +III If theIcHuBatteryChargingState = 3 + LvBatteryChargingStatus = 5 Should be updated in cloud + +IV Verify Lv Battery Charging Status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from IPC +IcHuBatteryChargingState +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus + +II If theIcHuBatteryChargingState = 0 + LvBatteryChargingStatus = 0 Should be updated in cloud + +II If theIcHuBatteryChargingState = 1 + LvBatteryChargingStatus = 1 Should be updated in cloud + +III If theIcHuBatteryChargingState = 2 + LvBatteryChargingStatus =2 Should be updated in cloud + +III If theIcHuBatteryChargingState = 3 + LvBatteryChargingStatus = 5 Should be updated in cloud + +IV Verify Lv Battery Charging Status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from IPC +IcHuBatteryChargingState +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus + +III If theIcHuBatteryChargingState = 0 + LvBatteryChargingStatus = 0 Should be updated in cloud + +IV If theIcHuBatteryChargingState = 1 + LvBatteryChargingStatus = 1 Should be updated in cloud + +V If theIcHuBatteryChargingState = 2 + LvBatteryChargingStatus =2 Should be updated in cloud + +VI If theIcHuBatteryChargingState = 3 + LvBatteryChargingStatus = 5 Should be updated in cloud + +VII Verify Lv Battery Charging Status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU interally receive valid Tcu Health State Information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from TCU +Internal to TCM = (Range 0 to 100) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details : + a Health Record Element - TcuBattLevelPercen + +II If Internal to TCM value is in between 0 to 100 + Then the TcuBattLevelPercen value should be same as Internal to TCM value should be updated in cloud + +III If Internal to TCM value is out of this range 0 to 100 + Then the TcuBattLevelPercen = 101 should be updated in cloud + +IV VerifyTCU interally receive valid Tcu Health State Information is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU interally receive valid Tcu Health State Information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from TCU +Internal to TCM = (Range 0 to 100) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details : + a Health Record Element - TcuBattLevelPercen + +II If Internal to TCM value is in between 0 to 100 + Then the TcuBattLevelPercen value should be same as Internal to TCM value should be updated in cloud + +III If Internal to TCM value is out of this range 0 to 100 + Then the TcuBattLevelPercen = 101 should be updated in cloud + +IV VerifyTCU interally receive valid Tcu Health State Information is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU interally receive valid Tcu Health State Information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from TCU +Internal to TCM = (Range 0 to 100) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details : + a Health Record Element - TcuBattLevelPercen + +II If Internal to TCM value is in between 0 to 100 + Then the TcuBattLevelPercen value should be same as Internal to TCM value should be updated in cloud + +III If Internal to TCM value is out of this range 0 to 100 + Then the TcuBattLevelPercen = 101 should be updated in cloud + +IV VerifyTCU interally receive valid Tcu Health State Information is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU interally receive valid Tcu Health State Information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from TCU +Internal to TCM = (Range 0 to 100) +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details : + a Health Record Element - TcuBattLevelPercen + +III If Internal to TCM value is in between 0 to 100 + Then the TcuBattLevelPercen value should be same as Internal to TCM value should be updated in cloud + +IV If Internal to TCM value is out of this range 0 to 100 + Then the TcuBattLevelPercen = 101 should be updated in cloud + +V VerifyTCU interally receive valid Tcu Health State Information is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from TPMS1 +TpmsFaultStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError + +II If the TpmsFaultStatus = 0 + Then TPMsError = 0 Should be updated in cloud + +III If the TpmsFaultStatus = 1 or 2 + Then TPMsError = 4 Should be updated in cloud + +IV If the TpmsFaultStatus = 3 + Then TPMsError =1 Should be updated in cloud + +V Verify TPMsError Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from TPMS1 +TpmsFaultStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError + +II If the TpmsFaultStatus = 0 + Then TPMsError = 0 Should be updated in cloud + +III If the TpmsFaultStatus = 1 or 2 + Then TPMsError = 4 Should be updated in cloud + +IV If the TpmsFaultStatus = 3 + Then TPMsError =1 Should be updated in cloud + +V Verify TPMsError Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from TPMS1 +TpmsFaultStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError + +II If the TpmsFaultStatus = 0 + Then TPMsError = 0 Should be updated in cloud + +III If the TpmsFaultStatus = 1 or 2 + Then TPMsError = 4 Should be updated in cloud + +IV If the TpmsFaultStatus = 3 + Then TPMsError =1 Should be updated in cloud + +V Verify TPMsError Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from TPMS1 +TpmsFaultStatus +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - TPMsError + +III If the TpmsFaultStatus = 0 + Then TPMsError = 0 Should be updated in cloud + +IV If the TpmsFaultStatus = 1 or 2 + Then TPMsError = 4 Should be updated in cloud + +V If the TpmsFaultStatus = 3 + Then TPMsError =1 Should be updated in cloud + +VI Verify TPMsError Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from TPMS +SensorMalfncFaultFR +PresLeakageAlertFR + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontRightWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR= 1 + Then FrontRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=1 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from TPMS +SensorMalfncFaultFR +PresLeakageAlertFR + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontRightWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR= 1 + Then FrontRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=1 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from TPMS +SensorMalfncFaultFR +PresLeakageAlertFR + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontRightWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR= 1 + Then FrontRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=1 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from TPMS +SensorMalfncFaultFR +PresLeakageAlertFR + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontRightWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR= 1 + Then FrontRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=1 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from TPMS +SensorMalfncFaultFL +PresLeakageAlertFL + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontLeftWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL= 1 + Then FrontLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=1 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from TPMS +SensorMalfncFaultFL +PresLeakageAlertFL + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontLeftWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL= 1 + Then FrontLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=1 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from TPMS +SensorMalfncFaultFL +PresLeakageAlertFL + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontLefttWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL= 1 + Then FrontLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=1 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from TPMS +SensorMalfncFaultFL +PresLeakageAlertFL + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontLeftWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL= 1 + Then FrontLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=1 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from TPMS +SensorMalfncFaultRR +PresLeakageAlertRR + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearRightWheelTyrePressureSensorFault + +II If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultRR = Signal not available or any other value + Then RearRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from TPMS +SensorMalfncFaultRR +PresLeakageAlertRR + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearRightWheelTyrePressureSensorFault + +II If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultRR = Signal not available or any other value + Then RearRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from TPMS +SensorMalfncFaultRR +PresLeakageAlertRR + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearRightWheelTyrePressureSensorFault + +II If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultRR = Signal not available or any other value + Then RearRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from TPMS +SensorMalfncFaultRR +PresLeakageAlertRR + +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - RearRightWheelTyrePressureSensorFault + +III If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +IV If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +V If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +VI If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VII If SensorMalfncFaultRR = Signal not available or any other value + Then RearRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VIII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from TPMS +SensorMalfncFaultRL +PresLeakageAlertRL + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearLeftWheelTyrePressureSensorFault + +II If SensorMalfncFaultRL =0 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If SensorMalfncFaultRL =1 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If SensorMalfncFaultRL =0 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If SensorMalfncFaultRL =1 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultRL = Signal not available or any other value + Then RearLeftWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from TPMS +SensorMalfncFaultRL +PresLeakageAlertRL + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearLeftWheelTyrePressureSensorFault + +II If SensorMalfncFaultRL =0 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If SensorMalfncFaultRL =1 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If SensorMalfncFaultRL =0 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If SensorMalfncFaultRL =1 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultRL = Signal not available or any other value + Then RearLeftWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from TPMS +SensorMalfncFaultRL +PresLeakageAlertRL + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearLeftWheelTyrePressureSensorFault + +II If SensorMalfncFaultRL =0 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If SensorMalfncFaultRL =1 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If SensorMalfncFaultRL =0 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If SensorMalfncFaultRL =1 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultRL = Signal not available or any other value + Then RearLeftWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from TPMS +SensorMalfncFaultRL +PresLeakageAlertRL + +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - RearLeftWheelTyrePressureSensorFault + +III If SensorMalfncFaultRL =0 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +IV If SensorMalfncFaultRL =1 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +V If SensorMalfncFaultRL =0 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +VI If SensorMalfncFaultRL =1 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VII If SensorMalfncFaultRL = Signal not available or any other value + Then RearLeftWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VIII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for SpareTyre information from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from TPMS +SensorMalfncFaultSpare +PresLeakageAlertSpare + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureSensorFault + +II If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 0 Should be updated in cloud + +III If SensorMalfncFaultSpare=1 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +IV If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=1 + Then SpareTyrePressureSensorFault = 2 Should be updated in cloud + +V If SensorMalfncFaultSpare= 1 And PresLeakageAlertSpare= 1 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultSpare= Signal not available or any other value + Then SpareTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify SSensor Malfunction Fault and presurre leakage alert for SpareTyre information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for SpareTyre information from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from TPMS +SensorMalfncFaultSpare +PresLeakageAlertSpare + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureSensorFault + +II If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 0 Should be updated in cloud + +III If SensorMalfncFaultSpare=1 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +IV If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=1 + Then SpareTyrePressureSensorFault = 2 Should be updated in cloud + +V If SensorMalfncFaultSpare= 1 And PresLeakageAlertSpare= 1 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultSpare= Signal not available or any other value + Then SpareTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify SSensor Malfunction Fault and presurre leakage alert for SpareTyre information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for SpareTyre information from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from TPMS +SensorMalfncFaultSpare +PresLeakageAlertSpare + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureSensorFault + +II If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 0 Should be updated in cloud + +III If SensorMalfncFaultSpare=1 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +IV If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=1 + Then SpareTyrePressureSensorFault = 2 Should be updated in cloud + +V If SensorMalfncFaultSpare= 1 And PresLeakageAlertSpare= 1 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultSpare= Signal not available or any other value + Then SpareTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify SSensor Malfunction Fault and presurre leakage alert for SpareTyre information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for SpareTyre information from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is Sleep + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from TPMS +SensorMalfncFaultSpare +PresLeakageAlertSpare + +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureSensorFault + +III If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 0 Should be updated in cloud + +IV If SensorMalfncFaultSpare=1 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +V If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=1 + Then SpareTyrePressureSensorFault = 2 Should be updated in cloud + +VI If SensorMalfncFaultSpare= 1 And PresLeakageAlertSpare= 1 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +VII If SensorMalfncFaultSpare= Signal not available or any other value + Then SpareTyrePressureSensorFault = 5 Should be updated in cloud + +VIII Verify SSensor Malfunction Fault and presurre leakage alert for SpareTyre information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive high temperature status of the traction motor information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU + MotorHighTemp + MotorHighTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - MotorHighTemp + +II If the MotorHightempStatus = 0 + Then the same value of MotorHighTemp should be updated in cloud + +III If the MotorHightempStatus = 2 + MotorHighTemp = 5 should be updated in cloud + +IV Verify the high temperature status of the traction motor information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive high temperature status of the traction motor information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU + MotorHighTemp + MotorHighTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - MotorHighTemp + +II If the MotorHightempStatus = 0 + Then the same value of MotorHighTemp should be updated in cloud + +III If the MotorHightempStatus = 2 + MotorHighTemp = 5 should be updated in cloud + +IV Verify the high temperature status of the traction motor information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive high temperature status of the traction motor information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU + MotorHighTemp + MotorHighTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - MotorHighTemp + +II If the MotorHightempStatus = 0 + Then the same value of MotorHighTemp should be updated in cloud + +III If the MotorHightempStatus = 2 + MotorHighTemp = 5 should be updated in cloud + +IV Verify the high temperature status of the traction motor information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive high temperature status of the traction motor information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU + MotorHighTemp + MotorHighTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - MotorHighTemp + +III If the MotorHightempStatus = 0 + Then the same value of MotorHighTemp should be updated in cloud + +IV If the MotorHightempStatus = 2 + MotorHighTemp = 5 should be updated in cloud + +V Verify the high temperature status of the traction motor information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HDc Status from ABS/ESP + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from Brake2 + HDcStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HdcStateFlag + +II If HDcStatus = 0 + Then HdcStateFlag = 0 Should be updated in cloud + +III If HDcStatus = 1 + Then HdcStateFlag = 1 Should be updated in cloud + +IV If HDcStatus = 2 + Then HdcStateFlag = 2 Should be updated in cloud + +V If HDcStatus = 3 + Then HdcStateFlag = 3 Should be updated in cloud + +VI If HDcStatus = Signal not available OR Any other value + Then HdcStateFlag = 6 Should be updated in cloud + + VII Verify HDC status is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HDc Status from ABS/ESP + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from Brake2 + HDcStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HdcStateFlag + +II If HDcStatus = 0 + Then HdcStateFlag = 0 Should be updated in cloud + +III If HDcStatus = 1 + Then HdcStateFlag = 1 Should be updated in cloud + +IV If HDcStatus = 2 + Then HdcStateFlag = 2 Should be updated in cloud + +V If HDcStatus = 3 + Then HdcStateFlag = 3 Should be updated in cloud + +VI If HDcStatus = Signal not available OR Any other value + Then HdcStateFlag = 6 Should be updated in cloud + + VII Verify HDC status is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HDc Status from ABS/ESP + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from Brake2 + HDcStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HdcStateFlag + +II If HDcStatus = 0 + Then HdcStateFlag = 0 Should be updated in cloud + +III If HDcStatus = 1 + Then HdcStateFlag = 1 Should be updated in cloud + +IV If HDcStatus = 2 + Then HdcStateFlag = 2 Should be updated in cloud + +V If HDcStatus = 3 + Then HdcStateFlag = 3 Should be updated in cloud + +VI If HDcStatus = Signal not available OR Any other value + Then HdcStateFlag = 6 Should be updated in cloud + + VII Verify HDC status is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HDc Status from ABS/ESP + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from Brake2 + HDcStatus +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - HdcStateFlag + +III If HDcStatus = 0 + Then HdcStateFlag = 0 Should be updated in cloud + +IV If HDcStatus = 1 + Then HdcStateFlag = 1 Should be updated in cloud + +V If HDcStatus = 2 + Then HdcStateFlag = 2 Should be updated in cloud + +VI If HDcStatus = 3 + Then HdcStateFlag = 3 Should be updated in cloud + +VII If HDcStatus = Signal not available OR Any other value + Then HdcStateFlag = 6 Should be updated in cloud + + VIII Verify HDC status is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Approch Lamp On Flag from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from BCM + ApprochLampState + ApprochLampStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - ApprochLampOnFlag + +II If the ApprochLampStateStatus = 0 + Then same value of ApprochLampState should be updated in cloud + ApprochLampOnFlag Value should be same as ApprochLampState value + +III If the ApprochLampStateStatus = 2 + ApprochLampOnFlag = 4 Should be updated in cloud + +IV If the ApprochLampStateStatus = 1 or 3 + ApprochLampOnFlag = 4 Should be updated in cloud + +V If the ApprochLampState = Signal not available OR Any other value + ApprochLampOnFlag = 4 Should be updated in cloud + + +VI Verify the Approach lamp status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Approch Lamp On Flag from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from BCM + ApprochLampState + ApprochLampStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - ApprochLampOnFlag + +II If the ApprochLampStateStatus = 0 + Then same value of ApprochLampState should be updated in cloud + ApprochLampOnFlag Value should be same as ApprochLampState value + +III If the ApprochLampStateStatus = 2 + ApprochLampOnFlag = 4 Should be updated in cloud + +IV If the ApprochLampStateStatus = 1 or 3 + ApprochLampOnFlag = 4 Should be updated in cloud + +V If the ApprochLampState = Signal not available OR Any other value + ApprochLampOnFlag = 4 Should be updated in cloud + + +VI Verify the Approach lamp status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Approch Lamp On Flag from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 8 +2 Read the Below signals from BCM + ApprochLampState + ApprochLampStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - ApprochLampOnFlag + +II If the ApprochLampStateStatus = 0 + Then same value of ApprochLampState should be updated in cloud + ApprochLampOnFlag Value should be same as ApprochLampState value + +III If the ApprochLampStateStatus = 2 + ApprochLampOnFlag = 4 Should be updated in cloud + +IV If the ApprochLampStateStatus = 1 or 3 + ApprochLampOnFlag = 4 Should be updated in cloud + +V If the ApprochLampState = Signal not available OR Any other value + ApprochLampOnFlag = 4 Should be updated in cloud + + +VI Verify the Approach lamp status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Approch Lamp On Flag from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from BCM + ApprochLampState + ApprochLampStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - ApprochLampOnFlag + +III If the ApprochLampStateStatus = 0 + Then same value of ApprochLampState should be updated in cloud + ApprochLampOnFlag Value should be same as ApprochLampState value + +IV If the ApprochLampStateStatus = 2 + ApprochLampOnFlag = 4 Should be updated in cloud + +V If the ApprochLampStateStatus = 1 or 3 + ApprochLampOnFlag = 4 Should be updated in cloud + +VI If the ApprochLampState = Signal not available OR Any other value + ApprochLampOnFlag = 4 Should be updated in cloud + + +VII Verify the Approach lamp status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid MiLampState Status from EMS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from EMS + MiLampState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - MilLampOnFlag + +II If the MiLampState = 0 + MilLampOnFlag = 0 Should be updated in cloud + +III If the MiLampState = 1 + MilLampOnFlag = 1 Should be updated in cloud + +IV If the MiLampState = 2 + MilLampOnFlag = 1 Should be updated in cloud + +V If the MiLampState = 3 + MilLampOnFlag = 4 Should be updated in cloud + +VI Verify the MiLampState status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid MiLampState Status from EMS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from EMS + MiLampState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - MilLampOnFlag + +II If the MiLampState = 0 + MilLampOnFlag = 0 Should be updated in cloud + +III If the MiLampState = 1 + MilLampOnFlag = 1 Should be updated in cloud + +IV If the MiLampState = 2 + MilLampOnFlag = 1 Should be updated in cloud + +V If the MiLampState = 3 + MilLampOnFlag = 4 Should be updated in cloud + +VI Verify the MiLampState status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid MiLampState Status from EMS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from EMS + MiLampState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - MilLampOnFlag + +II If the MiLampState = 0 + MilLampOnFlag = 0 Should be updated in cloud + +III If the MiLampState = 1 + MilLampOnFlag = 1 Should be updated in cloud + +IV If the MiLampState = 2 + MilLampOnFlag = 1 Should be updated in cloud + +V If the MiLampState = 3 + MilLampOnFlag = 4 Should be updated in cloud + +VI Verify the MiLampState status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid MiLampState Status from EMS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from EMS + MiLampState + 3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - MilLampOnFlag + +III If the MiLampState = 0 + MilLampOnFlag = 0 Should be updated in cloud + +IV If the MiLampState = 1 + MilLampOnFlag = 1 Should be updated in cloud + +V If the MiLampState = 2 + MilLampOnFlag = 1 Should be updated in cloud + +VI If the MiLampState = 3 + MilLampOnFlag = 4 Should be updated in cloud + +VII Verify the MiLampState status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Low Fuel Output from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from IPC + LowFuelOutputIC = 0 + LowFuelOutputICStatus=0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FuelLevelLowFlag + +II If the LowFuelOutputICStatus = 0 + Then the same value of LowFuelOutputIC Should be updated in cloud + FuelLevelLowFlag value should be same as LowFuelOutputIC + +III If the LowFuelOutputICStatus = 2 OR 3 + Then FuelLevelLowFlag = 4 Should be updated in cloud + +IV If the LowFuelOutputIC = Signal not available OR Any other value + Then MilLampOnFlag = 1 Should be updated in cloud + +V Verify the Low Fuel Output status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Low Fuel Output from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from IPC + LowFuelOutputIC = 0 + LowFuelOutputICStatus=0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FuelLevelLowFlag + +II If the LowFuelOutputICStatus = 0 + Then the same value of LowFuelOutputIC Should be updated in cloud + FuelLevelLowFlag value should be same as LowFuelOutputIC + +III If the LowFuelOutputICStatus = 2 OR 3 + Then FuelLevelLowFlag = 4 Should be updated in cloud + +IV If the LowFuelOutputIC = Signal not available OR Any other value + Then MilLampOnFlag = 1 Should be updated in cloud + +V Verify the Low Fuel Output status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Low Fuel Output from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from IPC + LowFuelOutputIC = 0 + LowFuelOutputICStatus=0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FuelLevelLowFlag + +II If the LowFuelOutputICStatus = 0 + Then the same value of LowFuelOutputIC Should be updated in cloud + FuelLevelLowFlag value should be same as LowFuelOutputIC + +III If the LowFuelOutputICStatus = 2 OR 3 + Then FuelLevelLowFlag = 4 Should be updated in cloud + +IV If the LowFuelOutputIC = Signal not available OR Any other value + Then MilLampOnFlag = 1 Should be updated in cloud + +V Verify the Low Fuel Output status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Low Fuel Output from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from IPC + LowFuelOutputIC = 0 + LowFuelOutputICStatus=0 +3 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - FuelLevelLowFlag + +III If the LowFuelOutputICStatus = 0 + Then the same value of LowFuelOutputIC Should be updated in cloud + FuelLevelLowFlag value should be same as LowFuelOutputIC + +IV If the LowFuelOutputICStatus = 2 OR 3 + Then FuelLevelLowFlag = 4 Should be updated in cloud + +V If the LowFuelOutputIC = Signal not available OR Any other value + Then MilLampOnFlag = 1 Should be updated in cloud + +VI Verify the Low Fuel Output status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Engine Oil pressure low state from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from IPC + IcHuEngineOilPressureLowState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EngineOilPresLowFlag + +II If IcHuEngineOilPressureLowState = 0 + Then EngineOilPresLowFlag = 0 Should be updated in cloud + +III If IcHuEngineOilPressureLowState = 1 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +IV If IcHuEngineOilPressureLowState = 2 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +V If IcHuEngineOilPressureLowState = 3 + Then EngineOilPresLowFlag = 4 Should be updated in cloud + +VI Verify theEngine Oil pressure low state is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Engine Oil pressure low state from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from IPC + IcHuEngineOilPressureLowState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EngineOilPresLowFlag + +II If IcHuEngineOilPressureLowState = 0 + Then EngineOilPresLowFlag = 0 Should be updated in cloud + +III If IcHuEngineOilPressureLowState = 1 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +IV If IcHuEngineOilPressureLowState = 2 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +V If IcHuEngineOilPressureLowState = 3 + Then EngineOilPresLowFlag = 4 Should be updated in cloud + +VI Verify theEngine Oil pressure low state is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Engine Oil pressure low state from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from IPC + IcHuEngineOilPressureLowState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EngineOilPresLowFlag + +II If IcHuEngineOilPressureLowState = 0 + Then EngineOilPresLowFlag = 0 Should be updated in cloud + +III If IcHuEngineOilPressureLowState = 1 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +IV If IcHuEngineOilPressureLowState = 2 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +V If IcHuEngineOilPressureLowState = 3 + Then EngineOilPresLowFlag = 4 Should be updated in cloud + +VI Verify the Engine Oil pressure low state is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Engine Oil pressure low state from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from IPC + IcHuEngineOilPressureLowState + 3 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - EngineOilPresLowFlag + +III If IcHuEngineOilPressureLowState = 0 + Then EngineOilPresLowFlag = 0 Should be updated in cloud + +IV If IcHuEngineOilPressureLowState = 1 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +V If IcHuEngineOilPressureLowState = 2 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +VI If IcHuEngineOilPressureLowState = 3 + Then EngineOilPresLowFlag = 4 Should be updated in cloud + +VII Verify the Engine Oil pressure low state is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Parking brake status from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from IPC + ParkBrkState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - ParkBrakePressStateFlag + +II If the ParkBrkState = 0 + Then ParkBrakePressStateFlag = 0 Should be updated in cloud + +III If the ParkBrkState = 1 + Then ParkBrakePressStateFlag = 1 Should be updated in cloud + + +IV If the ParkBrkState = Signal not available OR Any other value + Then ParkBrakePressStateFlag = 4 Should be updated in cloud + +V Verify the valid Parking brake status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Parking brake status from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from IPC + ParkBrkState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - ParkBrakePressStateFlag + +II If the ParkBrkState = 0 + Then ParkBrakePressStateFlag = 0 Should be updated in cloud + +III If the ParkBrkState = 1 + Then ParkBrakePressStateFlag = 1 Should be updated in cloud + + +IV If the ParkBrkState = Signal not available OR Any other value + Then ParkBrakePressStateFlag = 4 Should be updated in cloud + +V Verify the valid Parking brake status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Parking brake status from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from IPC + ParkBrkState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - ParkBrakePressStateFlag + +II If the ParkBrkState = 0 + Then ParkBrakePressStateFlag = 0 Should be updated in cloud + +III If the ParkBrkState = 1 + Then ParkBrakePressStateFlag = 1 Should be updated in cloud + + +IV If the ParkBrkState = Signal not available OR Any other value + Then ParkBrakePressStateFlag = 4 Should be updated in cloud + +V Verify the valid Parking brake status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Parking brake status from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from IPC + ParkBrkState + 3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - ParkBrakePressStateFlag + +III If the ParkBrkState = 0 + Then ParkBrakePressStateFlag = 0 Should be updated in cloud + +IV If the ParkBrkState = 1 + Then ParkBrakePressStateFlag = 1 Should be updated in cloud + + +V If the ParkBrkState = Signal not available OR Any other value + Then ParkBrakePressStateFlag = 4 Should be updated in cloud + +VI Verify the valid Parking brake status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid FuelRemaining in liters information from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from IPC + IcHuFuelVolumeInfoLtrs +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FuelRemaining + +II If the IcHuFuelVolumeInfoLtrs value is between in range of 0-65 + Then FuelRemaining = 0- 65 should be updated in cloud + +III If the IcHuFuelVolumeInfoLtrs value is out range this range 0-65 + Then FuelRemaining = 651 should be updated in cloud + + +IIV Verify the FuelRemaining in liters information status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid FuelRemaining in liters information from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from IPC + IcHuFuelVolumeInfoLtrs +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FuelRemaining + +II If the IcHuFuelVolumeInfoLtrs value is between in range of 0-65 + Then FuelRemaining = 0- 65 should be updated in cloud + +III If the IcHuFuelVolumeInfoLtrs value is out range this range 0-65 + Then FuelRemaining = 651 should be updated in cloud + + +IIV Verify the FuelRemaining in liters information status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid FuelRemaining in liters information from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from IPC + IcHuFuelVolumeInfoLtrs +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FuelRemaining + +II If the IcHuFuelVolumeInfoLtrs value is between in range of 0-65 + Then FuelRemaining = 0- 65 should be updated in cloud + +III If the IcHuFuelVolumeInfoLtrs value is out range this range 0-65 + Then FuelRemaining = 651 should be updated in cloud + + +IIV Verify the FuelRemaining in liters information status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid FuelRemaining in liters information from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is Sleep + + + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from IPC + IcHuFuelVolumeInfoLtrs +3 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - FuelRemaining + +III If the IcHuFuelVolumeInfoLtrs value is between in range of 0-65 + Then FuelRemaining = 0- 65 should be updated in cloud + +IV If the IcHuFuelVolumeInfoLtrs value is out range this range 0-65 + Then FuelRemaining = 651 should be updated in cloud + +V Verify the FuelRemaining in liters information status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState + +II If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + BatteryChargeState value should be same as HvChargingState + +III If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState =4 should be updated in cloud + + +IV Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState + +II If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + BatteryChargeState value should be same as HvChargingState + +III If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState =4 should be updated in cloud + + +IV Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState + +II If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + BatteryChargeState value should be same as HvChargingState + +III If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState =4 should be updated in cloud + + +IV Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is Sleep + + + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState + +III If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + BatteryChargeState value should be same as HvChargingState + +IV If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState =4 should be updated in cloud + + +V Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState + +II If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + + +III If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState = 4 should be updated in cloud + + +IV Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState + +II If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + + +III If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState = 4 should be updated in cloud + + +IV Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState + +II If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + + +III If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState = 4 should be updated in cloud + + +IV Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is Sleep + + + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - HvChargingState + +III If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + + +IV If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState = 4 should be updated in cloud + + +V Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall monitor the battery voltage level and send to cloud as part of Health packate + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU +VehicleBatteryLevel +3 TCU receives Remote Health check request from Cloud RemoteVehicleHealthRefreshCommand +4 Verify the outputs + +Expected Output: + +I Cloud shall wake up TCU over SMS + +II Verify the following Message in the Cloud: +RemoteVehicleHealthRefreshCommand + +III Verify the following details in the Cloud: + a Health Record Element - VehicleBatteryLevel + +IV Verify Battery voltage level is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall monitor the battery voltage level and send to cloud as part of Health packate + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Awake mode + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +VehicleBatteryLevel +3 TCU receives Remote Health check request from Cloud RemoteVehicleHealthRefreshCommand +4 Verify the outputs + +Expected Output: + +I Verify the following Message in the Cloud: +RemoteVehicleHealthRefreshCommand + +II Verify the following details in the Cloud: + a Health Record Element - VehicleBatteryLevel + +III Verify Battery voltage level is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU shall receive valid EVSystemWarning signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Sleep mode + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read Below signals from VCU +EVSystemWarning +EVSystemWarningStatus +3 TCU receives Remote Health check request from Cloud +4 Verify the outputs + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following Message in the Cloud: +RemoteVehicleHealthRefreshCommand + +III Verify the following details in the Cloud: + a Health Record Element -EVSystemWarning + +IV If EVSystemWarningStatus = 0 + Then EVSystemWarning should be 0,1 or 2 Should be updated in cloud + +V If EVSystemWarningStatus = 2 + Then EVSystemWarning = 5 Should be updated in cloud + +IV Verify EVSystemWarning signal is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU shall receive valid EVSystemWarning signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Awake mode + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read Below signals from VCU +EVSystemWarning +EVSystemWarningStatus +3 TCU receives Remote Health check request from Cloud +4 Verify the outputs + +Expected Output: + + +I Verify the following Message in the Cloud: +RemoteVehicleHealthRefreshCommand + +II Verify the following details in the Cloud: + a Health Record Element -EVSystemWarning + +III If EVSystemWarningStatus = 0 + Then EVSystemWarning should be 0,1 or 2 Should be updated in cloud + +IV If EVSystemWarningStatus = 2 + Then EVSystemWarning = 5 Should be updated in cloud + +V Verify EVSystemWarning signal is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU shall receive valid EVSystemWarning signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Awake mode + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read Below signals from VCU +EVSystemWarning +EVSystemWarningStatus +3 TCU receives Remote Health check request from Cloud +4 Verify the outputs + +Expected Output: + + +I Verify the following Message in the Cloud: +RemoteVehicleHealthRefreshCommand + +II Verify the following details in the Cloud: + a Health Record Element -EVSystemWarning + +III If EVSystemWarningStatus = 0 + Then EVSystemWarning should be 0,1 or 2 Should be updated in cloud + +IV If EVSystemWarningStatus = 2 + Then EVSystemWarning = 5 Should be updated in cloud + +V Verify EVSystemWarning signal is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU shall receive valid EVSystemWarning signal from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) TCU is in Awake mode + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read Below signals from VCU +EVSystemWarning +EVSystemWarningStatus +3 TCU receives Remote Health check request from Cloud +4 Verify the outputs + +Expected Output: + + +I Verify the following Message in the Cloud: +RemoteVehicleHealthRefreshCommand + +II Verify the following details in the Cloud: + a Health Record Element -EVSystemWarning + +III If EVSystemWarningStatus = 0 + Then EVSystemWarning should be 0,1 or 2 Should be updated in cloud + +IV If EVSystemWarningStatus = 2 + Then EVSystemWarning = 5 Should be updated in cloud + +V Verify EVSystemWarning signal is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattMaxCellTemp status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +HvBattMaxCellTemp +HvBattMaxCellTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattMaxCellTemp + +II If the HvBattMaxCellTempStatus = 0 + Thenp same value of HvBattMaxCellTem should be updated in cloud + HvBattMaxCellTemp same as HvBattMaxCellTemp + +III If the HvBattMaxCellTempStatus = 2 +HvBattMaxCellTemp = 201 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +HvBattSocPercen +HvBattSocPercenStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage + +II If HvBattSocPercenStatus = 0 + Then Same value of HvBattSocPercen Should be updated in cloud + HvBattSocPercentage Same as HvBattSocPercen + +III If HvBattSocPercenStatus = 2 + HvBattSocPercentage = 101 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +HvBattSocPercen +HvBattSocPercenStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage + +II If HvBattSocPercenStatus = 0 + Then Same value of HvBattSocPercen Should be updated in cloud + HvBattSocPercentage Same as HvBattSocPercen + +III If HvBattSocPercenStatus = 2 + HvBattSocPercentage = 101 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +HvBattSocPercen +HvBattSocPercenStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage + +II If HvBattSocPercenStatus = 0 + Then Same value of HvBattSocPercen Should be updated in cloud + HvBattSocPercentage Same as HvBattSocPercen + +III If HvBattSocPercenStatus = 2 + HvBattSocPercentage = 101 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +HvBattSoh +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage + +II If the HvBattSoh = 0 or 1 + Then HvBattSohPercentage = 0 or 1 Should be updated in cloud + +III II If the HvBattSoh = Except 0 or 1 + Then HvBattSohPercentage =101 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +HvBattSoh +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage + +II If the HvBattSoh = 0 or 1 + Then HvBattSohPercentage = 0 or 1 Should be updated in cloud + +III II If the HvBattSoh = Except 0 or 1 + Then HvBattSohPercentage =101 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattSohPercentage status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +HvBattSoh +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattSohPercentage + +II If the HvBattSoh = 0 or 1 + Then HvBattSohPercentage = 0 or 1 Should be updated in cloud + +III II If the HvBattSoh = Except 0 or 1 + Then HvBattSohPercentage =101 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from SRS +FrPassSBRIndication +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag + +II If the FrPassSBRIndication = 0 + Then CoDriverSeatBeltFlag = 0 SHOULD BE UPDATED IN Cloud + +III If the FrPassSBRIndication = 1 + Then CoDriverSeatBeltFlag = 1 SHOULD BE UPDATED IN Cloud + +IV If the FrPassSBRIndication = Except 0 or 1 + Then CoDriverSeatBeltFlag = 4 SHOULD BE UPDATED IN Cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from SRS +FrPassSBRIndication +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag + +II If the FrPassSBRIndication = 0 + Then CoDriverSeatBeltFlag = 0 SHOULD BE UPDATED IN Cloud + +III If the FrPassSBRIndication = 1 + Then CoDriverSeatBeltFlag = 1 SHOULD BE UPDATED IN Cloud + +IV If the FrPassSBRIndication = Except 0 or 1 + Then CoDriverSeatBeltFlag = 4 SHOULD BE UPDATED IN Cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive CoDriverSeatBeltFlagg from SRS + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from SRS +FrPassSBRIndication +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -CoDriverSeatBeltFlag + +II If the FrPassSBRIndication = 0 + Then CoDriverSeatBeltFlag = 0 SHOULD BE UPDATED IN Cloud + +III If the FrPassSBRIndication = 1 + Then CoDriverSeatBeltFlag = 1 SHOULD BE UPDATED IN Cloud + +IV If the FrPassSBRIndication = Except 0 or 1 + Then CoDriverSeatBeltFlag = 4 SHOULD BE UPDATED IN Cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag + +II If IcSbrDrvrSeatBeltSwitchStatus = 0 + Then DriverSeatBeltFlag = 0 Should be updated in cloud + +III If IcSbrDrvrSeatBeltSwitchStatus = 1 + Then DriverSeatBeltFlag = 1 Should be updated in cloud + + +IV If IcSbrDrvrSeatBeltSwitchStatus = Except 0 or 1 + Then DriverSeatBeltFlag = 4 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag + +II If IcSbrDrvrSeatBeltSwitchStatus = 0 + Then DriverSeatBeltFlag = 0 Should be updated in cloud + +III If IcSbrDrvrSeatBeltSwitchStatus = 1 + Then DriverSeatBeltFlag = 1 Should be updated in cloud + + +IV If IcSbrDrvrSeatBeltSwitchStatus = Except 0 or 1 + Then DriverSeatBeltFlag = 4 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive DriverSeatBeltFlag from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +cSbrDrvrSeatBeltSwitchStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -DriverSeatBeltFlag + +II If IcSbrDrvrSeatBeltSwitchStatus = 0 + Then DriverSeatBeltFlag = 0 Should be updated in cloud + +III If IcSbrDrvrSeatBeltSwitchStatus = 1 + Then DriverSeatBeltFlag = 1 Should be updated in cloud + + +IV If IcSbrDrvrSeatBeltSwitchStatus = Except 0 or 1 + Then DriverSeatBeltFlag = 4 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattKWh from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from Vcu +HvBattPwrConsmp +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattKWh + +II If the HvBattPwrConsmp = In between 0-250 + Then HvBattKWh Should be same as HvBattPwrConsmp + +III If the HvBattPwrConsmp = Out of 0-250 + Then HvBattKWh = 2501 Should be updated in cloud + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattKWh from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state =9 +2 Read the Below signals from Vcu +HvBattPwrConsmp +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattKWh + +II If the HvBattPwrConsmp = In between 0-250 + Then HvBattKWh Should be same as HvBattPwrConsmp + +III If the HvBattPwrConsmp = Out of 0-250 + Then HvBattKWh = 2501 Should be updated in cloud + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive HvBattKWh from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state =6 +2 Read the Below signals from Vcu +HvBattPwrConsmp +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattKWh + +II If the HvBattPwrConsmp = In between 0-250 + Then HvBattKWh Should be same as HvBattPwrConsmp + +III If the HvBattPwrConsmp = Out of 0-250 + Then HvBattKWh = 2501 Should be updated in cloud + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty Non EV from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from IPC +cHuDTeInfo +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - Distance to Empty Non EV + II If the IcHuDTeInfo = 0 to 999 + Then Distance to Empty Non EV should be in between 0 to 999 + + III If the IcHuDTeInfo = Out of these range 0 to 999 + Then Distance to Empty Non EV = 1000 Should be updated in cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty Non EV from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from IPC +cHuDTeInfo +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - Distance to Empty Non EV + II If the IcHuDTeInfo = 0 to 999 + Then Distance to Empty Non EV should be in between 0 to 999 + + III If the IcHuDTeInfo = Out of these range 0 to 999 + Then Distance to Empty Non EV = 1000 Should be updated in cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty Non EV from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from IPC +cHuDTeInfo +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - Distance to Empty Non EV + II If the IcHuDTeInfo = 0 to 999 + Then Distance to Empty Non EV should be in between 0 to 999 + + III If the IcHuDTeInfo = Out of these range 0 to 999 + Then Distance to Empty Non EV = 1000 Should be updated in cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive TCuHealthState fromInternal to TCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from Internal to TCM +Internal to TCM = +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TCuHealthState + +II If the Internal to TCM = in between 0 to 8191 +Then TCuHealthState value should be same as Internal to TCM + +III If the Internal to TCM = Out of 0 to 8191 +Then TCuHealthState= 8192 Should be updated in cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive TCuHealthState fromInternal to TCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Read the Below signals from Internal to TCM +Internal to TCM = +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TCuHealthState + +II If the Internal to TCM = in between 0 to 8191 +Then TCuHealthState value should be same as Internal to TCM + +III If the Internal to TCM = Out of 0 to 8191 +Then TCuHealthState= 8192 Should be updated in cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive TCuHealthState fromInternal to TCM + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from Internal to TCM +Internal to TCM = +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TCuHealthState + +II If the Internal to TCM = in between 0 to 8191 +Then TCuHealthState value should be same as Internal to TCM + +III If the Internal to TCM = Out of 0 to 8191 +Then TCuHealthState= 8192 Should be updated in cloud + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall ReceiveHvBattTemp from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +HvBattTemp +HvBattTempStatus + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -ReceiveHvBattTemp + +II If the HvBattTempStatus = 0 + Then Same value of HvBattTemp Should be updared in cloud + +II If the HvBattTempStatus = 2 + Then HvBattTemp = 81 Should be updared in cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall ReceiveHvBattTemp from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +HvBattTemp +HvBattTempStatus + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -ReceiveHvBattTemp + +II If the HvBattTempStatus = 0 + Then Same value of HvBattTemp Should be updared in cloud + +II If the HvBattTempStatus = 2 + Then HvBattTemp = 81 Should be updared in cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall ReceiveHvBattTemp from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +HvBattTemp +HvBattTempStatus + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -ReceiveHvBattTemp + +II If the HvBattTempStatus = 0 + Then Same value of HvBattTemp Should be updared in cloud + +II If the HvBattTempStatus = 2 + Then HvBattTemp = 81 Should be updared in cloud + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive FuelLevelPercentage from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from IPC +IcHuFuelVolumeInfoPercen +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -FuelLevelPercentageg + +II If IcHuFuelVolumeInfoPercen = in range of 0 TO 100 + Then FuelLevelPercentage Value should be in between 0 t0 100 + +II If IcHuFuelVolumeInfoPercen = out of 100 + Then FuelLevelPercentage = 101 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive FuelLevelPercentage from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from IPC +IcHuFuelVolumeInfoPercen +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -FuelLevelPercentageg + +II If IcHuFuelVolumeInfoPercen = in range of 0 TO 100 + Then FuelLevelPercentage Value should be in between 0 t0 100 + +II If IcHuFuelVolumeInfoPercen = out of 100 + Then FuelLevelPercentage = 101 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall Receive FuelLevelPercentage from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from IPC +IcHuFuelVolumeInfoPercen +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -FuelLevelPercentageg + +II If IcHuFuelVolumeInfoPercen = in range of 0 TO 100 + Then FuelLevelPercentage Value should be in between 0 t0 100 + +II If IcHuFuelVolumeInfoPercen = out of 100 + Then FuelLevelPercentage = 101 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +BatteryHighTemp +BatteryHighTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag + +II. If BatteryHighTempStatus = 0 + Then HvBattHighTempFlag Should be 0 or 1 updated in cloud + +III II. If BatteryHighTempStatus = 2 + Then HvBattHighTempFlag = 4 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +BatteryHighTemp +BatteryHighTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag + +II. If BatteryHighTempStatus = 0 + Then HvBattHighTempFlag Should be 0 or 1 updated in cloud + +III II. If BatteryHighTempStatus = 2 + Then HvBattHighTempFlag = 4 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall HvBattHighTempFlag from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +BatteryHighTemp +BatteryHighTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HvBattHighTempFlag + +II. If BatteryHighTempStatus = 0 + Then HvBattHighTempFlag Should be 0 or 1 updated in cloud + +III II. If BatteryHighTempStatus = 2 + Then HvBattHighTempFlag = 4 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read Below signals from VCU +DTeInfo +DteInfoStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -Distance to Empty + +II If DteInfoStatus = 0 + Same value of DTeInfo should be updated on cloud + +III If DteInfoStatus = 2 + Distance to Empty = 1000 should be updated on cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read Below signals from VCU +DTeInfo +DteInfoStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -Distance to Empty + +II If DteInfoStatus = 0 + Same value of DTeInfo should be updated on cloud + +III If DteInfoStatus = 2 + Distance to Empty = 1000 should be updated on cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read Below signals from VCU +DTeInfo +DteInfoStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -Distance to Empty + +II If DteInfoStatus = 0 + Same value of DTeInfo should be updated on cloud + +III If DteInfoStatus = 2 + Distance to Empty = 1000 should be updated on cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall export Vehicle Health packet to cloud during Ignition ON state. + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Check the TCU in wake up mode or any event occurs + +Expected Output: + I Verify the TCU is in wake up mode or after receiving the Wake-up SMS from app +II Verify the TCU capture vehicle health feature +III Verify the TCU sends it to the cloud along as a vehicle health data packet as per TMCVP + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall export Vehicle Health packet to cloud during Ignition ON state + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Check the TCU in wake up mode +3 TCU receives health check request (RemoteVehicleHealthRefreshCommand) from Cloud + +Expected Output: + I Verify the TCU is in wake up mode or TCU wakes up after receiving the Wake-up SMS from app +II Verify the TCU receives health check request "RemoteVehicleHealthRefreshCommand" from Cloud +III Verify the TCU Wake-up the diagnostics CAN by publishing NM_PDU messages +IV Verify the TCU send a packet of Health data as per TMCVP +V Verify the TCU send "RemoteVehicleHealthRefreshCommandResponse" And after that go in to sleep mode + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall export Vehicle Health packet to cloud during Ignition ON state + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Check the TCU in wake up mode +3 TCU receives health check request (RemoteVehicleHealthRefreshCommand) from Cloud + +Expected Output: + I Verify the TCU is in wake up mode or TCU wakes up after receiving the Wake-up SMS from app +II Verify the TCU receives health check request "RemoteVehicleHealthRefreshCommand" from Cloud +III Verify the TCU Wake-up the diagnostics CAN by publishing NM_PDU messages +IV Verify the TCU send a packet of Health data as per TMCVP +V Verify the TCU send "RemoteVehicleHealthRefreshCommandResponse" And after that go in to sleep mode + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall export Vehicle Health packet to cloud during Ignition ON state + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Check the TCU in wake up mode +3 TCU receives health check request (RemoteVehicleHealthRefreshCommand) from Cloud + +Expected Output: +I Cloud shall wake up TCU over SMS +II Verify the TCU is in wake up mode or TCU wakes up after receiving the Wake-up SMS from app +III Verify the TCU receives health check request "RemoteVehicleHealthRefreshCommand" from Cloud +IV Verify the TCU Wake-up the diagnostics CAN by publishing NM_PDU messages +V Verify the TCU send a packet of Health data as per TMCVP +VII Verify the TCU send "RemoteVehicleHealthRefreshCommandResponse" And after that go in to sleep mode + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall export Vehicle Health packet to cloud during Ignition ON state + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Check the TCU in wake up mode +3 TCU receives health check request (RemoteVehicleHealthRefreshCommand) from Cloud + +Expected Output: + I Verify the TCU is in wake up mode or TCU wakes up after receiving the Wake-up SMS from app +II Verify the TCU receives health check request "RemoteVehicleHealthRefreshCommand" from Cloud +III Verify the TCU Wake-up the diagnostics CAN by publishing NM_PDU messages +IV Verify the TCU send a packet of Health data as per TMCVP +V Verify the TCU send "RemoteVehicleHealthRefreshCommandResponse" And after that go in to sleep mode + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall monitor the TCUBatteryLevelPercentage (TCUBat)and send to Cloud + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Read below signals from VCU +TCUBatteryLevelPercentage = (Signal not available in FD) +3 Verify Cloud details after 1 Mins + +Expected Output: + + I Verify the following details in the Cloud: + a Health Record Element - TCUBatteryLevelPercentage + + +II Verify the Battery Voltage Percentage is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due KM from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read Below signals from IPC +IcHuServReminderKm = Range (0 to 16383) + +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element - Next Service due KM + +II Verify the Service reminder (km) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due KM from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read Below signals from IPC +IcHuServReminderKm = Range (0 to 16383) + +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element - Next Service due KM + +II Verify the Service reminder (km) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due KM from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read Below signals from IPC +IcHuServReminderKm = Range (0 to 16383) + +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element - Next Service due KM + +II Verify the Service reminder (km) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due KM from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read Below signals from IPC +IcHuServReminderKm = Range (0 to 16383) + +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element- Next Service due KM + +II Verify the Service reminder (km) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Read below signals from IPC +IcHuServReminderDaysfull = (Signal range: 0 to 511) + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element- Next Service due Days + +II Verify the Next Service due Days is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read below signals from IPC +IcHuServReminderDaysfull = (Signal range: 0 to 511) + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: + a Health Record Element - Next Service due Days + +II Verify the Next Service due Days is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read below signals from IPC +IcHuServReminderDaysfull = (Signal range: 0 to 511) + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days + +II Verify the Next Service due Days is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 6 +2 Read the below signals from IPC +IcHuServReminderDaysfull +IcHuServReminderDays +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II As per proirity IcHuServReminderDaysfull should be updated in cloud + + + +III Verify the Next Service due Days is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read signals from IPC +IcHuServReminderDaysfull +IcHuServReminderDays +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II As per proirity IcHuServReminderDaysfull should be updated in cloud + + + +III Verify the Next Service due Days is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read below signals from IPC +IcHuServReminderDaysfull +IcHuServReminderDays +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II As per proirity IcHuServReminderDaysfull should be updated in cloud + + + +III Verify the Next Service due Days is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read signals from IPC +IcHuServReminderDays + +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II.If the IcHuServReminderDaysfull value is 0 then it should be publish IcHuServReminderDays + + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Read signals from IPC +IcHuServReminderDays + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II.If the IcHuServReminderDaysfull value is 0 then it should be publish IcHuServReminderDays + + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Read Below signals from IPC +IcHuServReminderDays + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II.If the IcHuServReminderDaysfull value is 0 then it should be publish IcHuServReminderDays + + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active (Ignition ON) +Powermode state = 6 +2 Read Below signals from IPC +IcHuServReminderDays + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II.If the IcHuServReminderDaysfull value is 0 then it should be publish IcHuServReminderDays + + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive Next Service due Days from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read Below signals from IPC +IcHuServReminderDays + +3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - Next Service due Days +II.If the IcHuServReminderDaysfull value is 0 then it should be publish IcHuServReminderDays + + +II Verify the Service reminder (in days) is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 + +2 Read below signals from IPC +NextServDueAlert = +0 = Next service is not due +1= Next service is due + +NextServDueAlertStatus +0= Signal not available +2= Plausible + +3 Verify Cloud details after 1 Min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element- NextServiceDueWarningFlag + +II If the NextServDueAlertStatus signal is plausible then NextServiceDueWarning = 1 + +III If the NextServDueAlertStatus signal is implausible then NextServiceDueWarningDefault = 4 + +IV Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 + +2 Read below signals from IPC +NextServDueAlert = +0 = Next service is not due +1= Next service is due + +NextServDueAlertStatus +0= Signal not available +2= Plausible + +3 Verify Cloud details after 1 Min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element- NextServiceDueWarningFlag + +II If the NextServDueAlertStatus signal is plausible then NextServiceDueWarning = 1 + +III If the NextServDueAlertStatus signal is implausible then NextServiceDueWarningDefault = 4 + +IV Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 + +2 Read below signals from IPC +NextServDueAlert = +0 = Next service is not due +1= Next service is due + +NextServDueAlertStatus +0= Signal not available +2= Plausible + +3 Verify Cloud details after 1 Min + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element- NextServiceDueWarningFlag + +II If the NextServDueAlertStatus signal is plausible then NextServiceDueWarning = 1 + +III If the NextServDueAlertStatus signal is implausible then NextServiceDueWarningDefault = 4 + +IV Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Next service Due alert Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state =1 + +2 Read below signals from IPC +NextServDueAlert = +0 = Next service is not due +1= Next service is due + +NextServDueAlertStatus +0= Signal not available +2= Plausible + +3 Verify Cloud details after 1 Min + + + +Expected Output: +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: +a Health Record Element- NextServiceDueWarningFlag + +III If the NextServDueAlertStatus signal is plausible then NextServiceDueWarning = 1 + +IV If the NextServDueAlertStatus signal is implausible then NextServiceDueWarningDefault = 4 + +V Verify the Next service Due alert Information is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Start (Crank) +Powermode state = 9 +2 Read below signals from BCM + +HazardLampState +0 = HazardLamp OFF +1= Hazard lamp on + +HazardLampStateStatus +0= Signal is plausible +2= Signal is implausible +3= Signal not available + +3 Verify Cloud details after 50 seconds + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag + +II If the HazardLampStateStatus siganl is plausible then the same value should be updadated in cloud +III If the HazardLampStateStatus siganl is implausible then HazardLampOnFlag should be Default value(4) +IV If the HazardLampStateStatus siganl is Signal not available then HazardLampOnFlag should be Default value(4) + + + +V Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read below signals from BCM + +HazardLampState +0 = HazardLampState +1= Hazard lamp on + +HazardLampStateStatus +0= Signal is plausible +2= Signal is implausible +3= Signal not available + +3 Verify Cloud details after 50 seconds + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag + +II If the HazardLampStateStatus siganl is plausible then the same value should be updadated in cloud +III If the HazardLampStateStatus siganl is implausible then HazardLampOnFlag should be Default value(4) +IV If the HazardLampStateStatus siganl is Signal not available then HazardLampOnFlag should be Default value(4) + + + +V Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 6 +2 Read below signals from BCM + +HazardLampState +0 = HazardLampState +1= Hazard lamp on + +HazardLampStateStatus +0= Signal is plausible +2= Signal is implausible +3= Signal not available + +3 Verify Cloud details after 50 seconds + + + +Expected Output: + +I Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag + +II If the HazardLampStateStatus siganl is plausible then the same value should be updadated in cloud +III If the HazardLampStateStatus siganl is implausible then HazardLampOnFlag should be Default value(4) +IV If the HazardLampStateStatus siganl is Signal not available then HazardLampOnFlag should be Default value(4) + + + +V Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Hazard Light Status from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read below signals from BCM + +HazardLampState +0 = HazardLampState +1= Hazard lamp on + +HazardLampStateStatus +0= Signal is plausible +2= Signal is implausible +3= Signal not available + +3 Verify Cloud details after 50 seconds + + + +Expected Output: +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: +a Health Record Element - HazardLampOnFlag + +III If the HazardLampStateStatus siganl is plausible then the same value should be updadated in cloud +IV If the HazardLampStateStatus siganl is implausible then HazardLampOnFlag should be Default value(4) +V If the HazardLampStateStatus siganl is Signal not available then HazardLampOnFlag should be Default value(4) + + + +VI Verify the Hazard Lamp status is displayed in the Mobile App + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read Below signals from BCM + + PositionLmpTelltale +0=Position lamp off +1=Position lamp On +Signal not available OR Any other value + + PositionLmpTelltaleStatus +0=Value is plausible +3=Signal not available + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag + +II If the PositionLmpTelltaleStatus siganl is plausible then the same value should be updadated in cloud +III If the PositionLmpTelltaleStatus siganl is not available then PositionLampOnDefault = 4 should be updated in cloud +IV Verify the Position Lamp status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read Below signals from BCM + + PositionLmpTelltale +0=Position lamp off +1=Position lamp On +Signal not available OR Any other value + + PositionLmpTelltaleStatus +0=Value is plausible +3=Signal not available + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag + +II If the PositionLmpTelltaleStatus siganl is plausible then the same value should be updadated in cloud +III If the PositionLmpTelltaleStatus siganl is not available then PositionLampOnDefault = 4 should be updated in cloud +IV Verify the Position Lamp status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as crank +Powermode state = 9 +2 Read Below signals from BCM + + PositionLmpTelltale +0=Position lamp off +1=Position lamp On +Signal not available OR Any other value + + PositionLmpTelltaleStatus +0=Value is plausible +3=Signal not available + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag + +II If the PositionLmpTelltaleStatus siganl is plausible then the same value should be updadated in cloud +III If the PositionLmpTelltaleStatus siganl is not available then PositionLampOnDefault = 4 should be updated in cloud +IV Verify the Position Lamp status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Position lamp signal status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read Below signals from BCM + + PositionLmpTelltale +0=Position lamp off +1=Position lamp On +Signal not available OR Any other value + + PositionLmpTelltaleStatus +0=Value is plausible +3=Signal not available + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - PositionLampOnFlag + +II If the PositionLmpTelltaleStatus siganl is plausible then the same value should be updadated in cloud +III If the PositionLmpTelltaleStatus siganl is not available then PositionLampOnDefault = 4 should be updated in cloud +IV Verify the Position Lamp status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2. Lock the vehicle externally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2. Lock the vehicle externally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2. Lock the vehicle externally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2. Lock the vehicle externally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +III If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 +IV If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +V If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +VI Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2. Lock the vehicle internally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2. Lock the vehicle internally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2. Lock the vehicle internally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2. Lock the vehicle internally +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +IV If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +V If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +VI Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2. Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2. Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2. Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2. Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2. Crash Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2. Crash Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2. Crash Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2. Reverse Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2. Reverse Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2. Reverse Unlock the vehicle +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +III If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +IV If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +V If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +VI Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2. Perform TCU Locked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2. Perform TCU Locked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2. Perform TCU Locked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2. Perform TCU Locked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +III If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 0 + +IV If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +V If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +VI Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2. Perform TCU unLocked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2. Perform TCU unLocked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2. Perform TCU unLocked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +II If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +III If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +IV If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +V Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Vehicle Lock state information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2. Perform TCU unLocked +3 Read Below signals from BCM +VehicleLockState +VehicleLockStateStatus +4 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: +a Health Record Element - VehicleLockState + +III If the VehicleLockStateStatus is Plausible +Then VehicleLockState should be= 1 + +IV If the VehicleLockStateStatus is Implausible +Then VehicleLockState should be= 4 + +V If the VehicleLockStateStatus is Signal Not available +Then VehicleLockState should be= 4 + +VI Verify the Vehicle Lock status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from BCM +DoorStateDrvr +DoorStateDrvrStatus +3 Verify Cloud details after 1 mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag + +II If the DoorStateDrvrStatus=0 + Then the same value of DoorStateDrvr should be updated in the cloud + RightFrontDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStateDrvrStatus=3 + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStateDrvr= Signal not available OR Any other value + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +V Verify Driver Door switch state Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from BCM +DoorStateDrvr +DoorStateDrvrStatus +3 Verify Cloud details after 1 mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag + +II If the DoorStateDrvrStatus=0 + Then the same value of DoorStateDrvr should be updated in the cloud + RightFrontDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStateDrvrStatus=3 + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStateDrvr= Signal not available OR Any other value + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +V Verify Driver Door switch state Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from BCM +DoorStateDrvr +DoorStateDrvrStatus +3 Verify Cloud details after 1 mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag + +II If the DoorStateDrvrStatus=0 + Then the same value of DoorStateDrvr should be updated in the cloud + RightFrontDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStateDrvrStatus=3 + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStateDrvr= Signal not available OR Any other value + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +V Verify Driver Door switch state Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Driver Door switch state Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from BCM +DoorStateDrvr +DoorStateDrvrStatus +3 Verify Cloud details after 1 mins + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - RightFrontDoorOpenFlag + +III If the DoorStateDrvrStatus=0 + Then the same value of DoorStateDrvr should be updated in the cloud + RightFrontDoorOpenFlag should be 1 or 0 updated in cloud + +IV If the DoorStateDrvrStatus=3 + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +V If the DoorStateDrvr= Signal not available OR Any other value + Then RightFrontDoorOpenFlag = 4 should be updadated in the cloud + +VI Verify Driver Door switch state Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from BCM +DoorStatePass +DoorStatePassStatus +3 Verify Cloud details after 1 Mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LeftFrontDoorOpenFlag + +II If the DoorStatePassStatus =0 + Then the same value of DoorStatePass should be updated in the cloud + LeftFrontDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStatePassStatus =3 + Then LeftFrontDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStatePass= Signal not available OR Any other value + Then LeftFrontDoorOpenFlag= 4 should be updadated in the cloud + +V Verify Co-driver Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from BCM +DoorStatePass +DoorStatePassStatus +3 Verify Cloud details after 1 Mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LeftFrontDoorOpenFlag + +II If the DoorStatePassStatus =0 + Then the same value of DoorStatePass should be updated in the cloud + LeftFrontDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStatePassStatus =3 + Then LeftFrontDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStatePass= Signal not available OR Any other value + Then LeftFrontDoorOpenFlag= 4 should be updadated in the cloud + +V Verify Co-driver Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from BCM +DoorStatePass +DoorStatePassStatus +3 Verify Cloud details after 1 Mins + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LeftFrontDoorOpenFlag + +II If the DoorStatePassStatus =0 + Then the same value of DoorStatePass should be updated in the cloud + LeftFrontDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStatePassStatus =3 + Then LeftFrontDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStatePass= Signal not available OR Any other value + Then LeftFrontDoorOpenFlag= 4 should be updadated in the cloud + +V Verify Co-driver Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Co-driver Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from BCM +DoorStatePass +DoorStatePassStatus +3 Verify Cloud details after 1 Mins + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element -LeftFrontDoorOpenFlag + +III If the DoorStatePassStatus =0 + Then the same value of DoorStatePass should be updated in the cloud + LeftFrontDoorOpenFlag should be 1 or 0 updated in cloud + +IV If the DoorStatePassStatus =3 + Then LeftFrontDoorOpenFlag = 4 should be updadated in the cloud + +V If the DoorStatePass= Signal not available OR Any other value + Then LeftFrontDoorOpenFlag= 4 should be updadated in the cloud + +VI Verify Co-driver Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 read the below signals from BCM +DoorstaterearRH +DoorStateRearRHStatus +3 Verify Cloud details after 10 Sec + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RightRearDoorOpenFlag + +II If the DoorStateRearRHStatus =0 + Then the same value of DoorStateRearRH should be updated in the cloud + RightRearDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStateRearRHStatus =3 + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStateRearRH = Signal not available OR Any other value + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +V Verify Rear right door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 read the below signals from BCM +DoorstaterearRH +DoorStateRearRHStatus +3 Verify Cloud details after 10 Sec + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RightRearDoorOpenFlag + +II If the DoorStateRearRHStatus =0 + Then the same value of DoorStateRearRH should be updated in the cloud + RightRearDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStateRearRHStatus =3 + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStateRearRH = Signal not available OR Any other value + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +V Verify Rear right door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 read the below signals from BCM +DoorstaterearRH +DoorStateRearRHStatus +3 Verify Cloud details after 10 Sec + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -RightRearDoorOpenFlag + +II If the DoorStateRearRHStatus =0 + Then the same value of DoorStateRearRH should be updated in the cloud + RightRearDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorStateRearRHStatus =3 + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +IV If the DoorStateRearRH = Signal not available OR Any other value + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +V Verify Rear right door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear right Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 read the below signals from BCM +DoorstaterearRH +DoorStateRearRHStatus +3 Verify Cloud details after 10 Sec + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element -RightRearDoorOpenFlag + +III If the DoorStateRearRHStatus =0 + Then the same value of DoorStateRearRH should be updated in the cloud + RightRearDoorOpenFlag should be 1 or 0 updated in cloud + +IV If the DoorStateRearRHStatus =3 + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +V If the DoorStateRearRH = Signal not available OR Any other value + Then RightRearDoorOpenFlag = 4 should be updadated in the cloud + +VI Verify Rear right door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from BCM +DoorstaterearLH +DoorstaterearLHStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LeftRearDoorOpenFlag + +II If the DoorStateRearLHStatus =0 + Then the same value of DoorstaterearLH should be updated in the cloud + LeftRearDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorstaterearLHStatus =3 + Then the LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +IV If the DoorstaterearLH= Signal not available OR Any other value + Then LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +V Verify Rear left Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from BCM +DoorstaterearLH +DoorstaterearLHStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LeftRearDoorOpenFlag + +II If the DoorStateRearLHStatus =0 + Then the same value of DoorstaterearLH should be updated in the cloud + LeftRearDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorstaterearLHStatus =3 + Then the LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +IV If the DoorstaterearLH= Signal not available OR Any other value + Then LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +V Verify Rear left Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from BCM +DoorstaterearLH +DoorstaterearLHStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LeftRearDoorOpenFlag + +II If the DoorStateRearLHStatus =0 + Then the same value of DoorstaterearLH should be updated in the cloud + LeftRearDoorOpenFlag should be 1 or 0 updated in cloud + +III If the DoorstaterearLHStatus =3 + Then the LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +IV If the DoorstaterearLH= Signal not available OR Any other value + Then LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +V Verify Rear left Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Rear left Door status Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from BCM +DoorstaterearLH +DoorstaterearLHStatus +3 Verify Cloud details after 1 min + + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element -LeftRearDoorOpenFlag + +III If the DoorStateRearLHStatus =0 + Then the same value of DoorstaterearLH should be updated in the cloud + LeftRearDoorOpenFlag should be 1 or 0 updated in cloud + +IV If the DoorstaterearLHStatus =3 + Then the LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +V If the DoorstaterearLH= Signal not available OR Any other value + Then LeftRearDoorOpenFlag= 4 should be updadated in the cloud + +VI Verify Rear left Door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from BCM +TailgateState +TailgateStateStatus +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TailGateOpenFlag + +II If the TailgateStateStatus=0 + Then the same value of TailgateState should be updated in the cloud + TailGateOpenFlag should be 1 or 0 updated in cloud + +III If the TailgateStateStatus =3 + Then the TailGateOpenFlag = 4 should be updadated in the cloud + +IV If the TailgateState = Signal not available OR Any other value + Then TailGateOpenFlag= 4 should be updadated in the cloud + +V Verify Tail gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from BCM +TailgateState +TailgateStateStatus +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TailGateOpenFlag + +II If the TailgateStateStatus=0 + Then the same value of TailgateState should be updated in the cloud + TailGateOpenFlag should be 1 or 0 updated in cloud + +III If the TailgateStateStatus =3 + Then the TailGateOpenFlag = 4 should be updadated in the cloud + +IV If the TailgateState = Signal not available OR Any other value + Then TailGateOpenFlag= 4 should be updadated in the cloud + +V Verify Tail gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from BCM +TailgateState +TailgateStateStatus +3 Verify Cloud details after 2 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -TailGateOpenFlag + +II If the TailgateStateStatus=0 + Then the same value of TailgateState should be updated in the cloud + TailGateOpenFlag should be 1 or 0 updated in cloud + +III If the TailgateStateStatus =3 + Then the TailGateOpenFlag = 4 should be updadated in the cloud + +IV If the TailgateState = Signal not available OR Any other value + Then TailGateOpenFlag= 4 should be updadated in the cloud + +V Verify Tail gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Tail gate door switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from BCM +TailgateState +TailgateStateStatus +3 Verify Cloud details after 2 min + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element -TailGateOpenFlag + +III If the TailgateStateStatus=0 + Then the same value of TailgateState should be updated in the cloud + TailGateOpenFlag should be 1 or 0 updated in cloud + +IV If the TailgateStateStatus =3 + Then the TailGateOpenFlag = 4 should be updadated in the cloud + +V If the TailgateState = Signal not available OR Any other value + Then TailGateOpenFlag= 4 should be updadated in the cloud + +VI Verify Tail gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the below signals from BCM +BonnetState +BonnetStateStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -BonnetOpenFlag + +II If the BonnetStateStatus=0 + Then the same value of BonnetState should be updated in the cloud + BonnetOpenFlag should be 1 or 0 updated in cloud + +III If the BonnetStateStatus =3 + Then the BonnetOpenFlag = 4 should be updadated in the cloud + +IV If the BonnetState = Signal not available OR Any other value + Then BonnetOpenFlag = 4 should be updadated in the cloud + +V Verify Bonnet gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the below signals from BCM +BonnetState +BonnetStateStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -BonnetOpenFlag + +II If the BonnetStateStatus=0 + Then the same value of BonnetState should be updated in the cloud + BonnetOpenFlag should be 1 or 0 updated in cloud + +III If the BonnetStateStatus =3 + Then the BonnetOpenFlag = 4 should be updadated in the cloud + +IV If the BonnetState = Signal not available OR Any other value + Then BonnetOpenFlag = 4 should be updadated in the cloud + +V Verify Bonnet gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the below signals from BCM +BonnetState +BonnetStateStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -BonnetOpenFlag + +II If the BonnetStateStatus=0 + Then the same value of BonnetState should be updated in the cloud + BonnetOpenFlag should be 1 or 0 updated in cloud + +III If the BonnetStateStatus =3 + Then the BonnetOpenFlag = 4 should be updadated in the cloud + +IV If the BonnetState = Signal not available OR Any other value + Then BonnetOpenFlag = 4 should be updadated in the cloud + +V Verify Bonnet gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Bonnet switch state Value Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the below signals from BCM +BonnetState +BonnetStateStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element -BonnetOpenFlag + +III If the BonnetStateStatus=0 + Then the same value of BonnetState should be updated in the cloud + BonnetOpenFlag should be 1 or 0 updated in cloud + +IV If the BonnetStateStatus =3 + Then the BonnetOpenFlag = 4 should be updadated in the cloud + +V If the BonnetState = Signal not available OR Any other value + Then BonnetOpenFlag = 4 should be updadated in the cloud + +VI Verify Bonnet gate door status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode Active +Powermode state = 6 +2 Read the Below signals from BCM + HighbeamTelltale + HighBeamTelltaleStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HighBeamLampOnFlag + +II If the HighBeamTelltaleStatus=0 + Then the same value of HighBeamTelltale should be updated in the cloud + HighBeamLampOnFlag should be 1 or 0 updated in cloud + +III If the HighBeamTelltaleStatus =3 + Then the HighBeamLampOnFlag = 4 should be updadated in the cloud + +IV If theHighBeamTelltale = Signal not available OR Any other value + Then HighBeamLampOnFlag = 4 should be updadated in the cloud + +V Verify High Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode Run +Powermode state = 8 +2 Read the Below signals from BCM + HighbeamTelltale + HighBeamTelltaleStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HighBeamLampOnFlag + +II If the HighBeamTelltaleStatus=0 + Then the same value of HighBeamTelltale should be updated in the cloud + HighBeamLampOnFlag should be 1 or 0 updated in cloud + +III If the HighBeamTelltaleStatus =3 + Then the HighBeamLampOnFlag = 4 should be updadated in the cloud + +IV If theHighBeamTelltale = Signal not available OR Any other value + Then HighBeamLampOnFlag = 4 should be updadated in the cloud + +V Verify High Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode Crank +Powermode state = 9 +2 Read the Below signals from BCM + HighbeamTelltale + HighBeamTelltaleStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -HighBeamLampOnFlag + +II If the HighBeamTelltaleStatus=0 + Then the same value of HighBeamTelltale should be updated in the cloud + HighBeamLampOnFlag should be 1 or 0 updated in cloud + +III If the HighBeamTelltaleStatus =3 + Then the HighBeamLampOnFlag = 4 should be updadated in the cloud + +IV If theHighBeamTelltale = Signal not available OR Any other value + Then HighBeamLampOnFlag = 4 should be updadated in the cloud + +V Verify High Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid High Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode Awake +Powermode state = 1 +2 Read the Below signals from BCM + HighbeamTelltale + HighBeamTelltaleStatus +3 Verify Cloud details after 1 min + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element -HighBeamLampOnFlag + +III If the HighBeamTelltaleStatus=0 + Then the same value of HighBeamTelltale should be updated in the cloud + HighBeamLampOnFlag should be 1 or 0 updated in cloud + +IV If the HighBeamTelltaleStatus =3 + Then the HighBeamLampOnFlag = 4 should be updadated in the cloud + +V If theHighBeamTelltale = Signal not available OR Any other value + Then HighBeamLampOnFlag = 4 should be updadated in the cloud + +VI Verify High Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Set Read the below signals from BCM + LowbeamTelltale + LowbeamTelltaleStatus +3 Verify Cloud details after 3 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowBeamLampOnFlag + +II If the LowBeamTellTaleStatus=0 + Then the same value of LowBeamTellTale should be updated in the cloud + LowBeamLampOnFlag should be 1 or 0 updated in cloud + +III If the LowBeamTellTaleStatus =3 + Then the LowBeamLampOnFlag = 4 should be updadated in the cloud + +IV If theHighBeamTelltale = Signal not available OR Any other value + Then LowBeamLampOnFlag = 4 should be updadated in the cloud + +V VVerify Low Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Set Read the below signals from BCM + LowbeamTelltale + LowbeamTelltaleStatus +3 Verify Cloud details after 3 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowBeamLampOnFlag + +II If the LowBeamTellTaleStatus=0 + Then the same value of LowBeamTellTale should be updated in the cloud + LowBeamLampOnFlag should be 1 or 0 updated in cloud + +III If the LowBeamTellTaleStatus =3 + Then the LowBeamLampOnFlag = 4 should be updadated in the cloud + +IV If theHighBeamTelltale = Signal not available OR Any other value + Then LowBeamLampOnFlag = 4 should be updadated in the cloud + +V Verify Low Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Set Read the below signals from BCM + LowbeamTelltale + LowbeamTelltaleStatus +3 Verify Cloud details after 3 min + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowBeamLampOnFlag + +II If the LowBeamTellTaleStatus=0 + Then the same value of LowBeamTellTale should be updated in the cloud + LowBeamLampOnFlag should be 1 or 0 updated in cloud + +III If the LowBeamTellTaleStatus =3 + Then the LowBeamLampOnFlag = 4 should be updadated in the cloud + +IV If theHighBeamTelltale = Signal not available OR Any other value + Then LowBeamLampOnFlag = 4 should be updadated in the cloud + +V Verify Low Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Low Beam status Information and status Messages from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Set Read the below signals from BCM + LowbeamTelltale + LowbeamTelltaleStatus +3 Verify Cloud details after 3 min + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element -LowBeamLampOnFlag + +III If the LowBeamTellTaleStatus=0 + Then the same value of LowBeamTellTale should be updated in the cloud + LowBeamLampOnFlag should be 1 or 0 updated in cloud + +IV If the LowBeamTellTaleStatus =3 + Then the LowBeamLampOnFlag = 4 should be updadated in the cloud + +V If theHighBeamTelltale = Signal not available OR Any other value + Then LowBeamLampOnFlag = 4 should be updadated in the cloud + +VI Verify Low Beam status Information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read teh Below signals from EPAS +EPAsStatus +EPAsStatusGen2 + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag + + +II If the EPAsStatusGen2 = 0 + Then the same value EPAsStatus should be updated in cloud + EPAsStateFlag should be 0 or 2 + +III If the EPAsStatusGen2 =2 + Then the EPAsStateFlag = 4 Should be updated in cloud + +IV Verify EPAS status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read teh Below signals from EPAS +EPAsStatus +EPAsStatusGen2 + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag + + +II If the EPAsStatusGen2 = 0 + Then the same value EPAsStatus should be updated in cloud + EPAsStateFlag should be 0 or 2 + +III If the EPAsStatusGen2 =2 + Then the EPAsStateFlag = 4 Should be updated in cloud + +IV Verify EPAS status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read teh Below signals from EPAS +EPAsStatus +EPAsStatusGen2 + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag + + +II If the EPAsStatusGen2 = 0 + Then the same value EPAsStatus should be updated in cloud + EPAsStateFlag should be 0 or 2 + +III If the EPAsStatusGen2 =2 + Then the EPAsStateFlag = 4 Should be updated in cloud + +IV Verify EPAS status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid EPAS status Information from EPAS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read teh Below signals from EPAS +EPAsStatus +EPAsStatusGen2 + +3 Verify Cloud details after 1 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EPAsStateFlag + + +II If the EPAsStatusGen2 = 0 + Then the same value EPAsStatus should be updated in cloud + EPAsStateFlag should be 0 or 2 + +III If the EPAsStatusGen2 =2 + Then the EPAsStateFlag = 4 Should be updated in cloud + +IV Verify EPAS status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the below signal from ABS + ABsStatus + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag + +II If the AbsStatus = 0 + Then AbsStateFlag = 0 Should be updated in cloud + +III If the AbsStatus = 1 OR 3 + Then AbsStateFlag = 4 Should be updated in cloud + +IV If the AbsStatus = 2 + Then AbsStateFlag = 2 Should be updated in cloud + +V Verify ABS status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the below signal from ABS + ABsStatus + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag + +II If the AbsStatus = 0 + Then AbsStateFlag = 0 Should be updated in cloud + +III If the AbsStatus = 1 OR 3 + Then AbsStateFlag = 4 Should be updated in cloud + +IV If the AbsStatus = 2 + Then AbsStateFlag = 2 Should be updated in cloud + +V Verify ABS status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the below signal from ABS + ABsStatus + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag + +II If the AbsStatus = 0 + Then AbsStateFlag = 0 Should be updated in cloud + +III If the AbsStatus = 1 OR 3 + Then AbsStateFlag = 4 Should be updated in cloud + +IV If the AbsStatus = 2 + Then AbsStateFlag = 2 Should be updated in cloud + +V Verify ABS status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid ABsStatus Information and status Messages from ABS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the below signal from ABS + ABsStatus + 3 Verify Cloud details after 1 mins + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - AbsStateFlag + +III If the AbsStatus = 0 + Then AbsStateFlag = 0 Should be updated in cloud + +IV If the AbsStatus = 1 OR 3 + Then AbsStateFlag = 4 Should be updated in cloud + +V If the AbsStatus = 2 + Then AbsStateFlag = 2 Should be updated in cloud + +VI Verify ABS status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signal from SRS +SRSWarningLamp + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag + +II If the SRSWarningLamp = 0 + Then SrsWarningLampFlag = 0 Should be updated in cloud + +III If the SRSWarningLamp= 1 + Then SrsWarningLampFlag = 1 Should be updated in cloud + +IV If the SRSWarningLamp = Signal not available OR Any other + Then SrsWarningLampFlag = 4 Should be updated in cloud + +V Verify AWL warning lamp status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signal from SRS +SRSWarningLamp + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag + +II If the SRSWarningLamp = 0 + Then SrsWarningLampFlag = 0 Should be updated in cloud + +III If the SRSWarningLamp= 1 + Then SrsWarningLampFlag = 1 Should be updated in cloud + +IV If the SRSWarningLamp = Signal not available OR Any other + Then SrsWarningLampFlag = 4 Should be updated in cloud + +V Verify AWL warning lamp status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signal from SRS +SRSWarningLamp + + 3 Verify Cloud details after 1 mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag + +II If the SRSWarningLamp = 0 + Then SrsWarningLampFlag = 0 Should be updated in cloud + +III If the SRSWarningLamp= 1 + Then SrsWarningLampFlag = 1 Should be updated in cloud + +IV If the SRSWarningLamp = Signal not available OR Any other + Then SrsWarningLampFlag = 4 Should be updated in cloud + +V Verify AWL warning lamp status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid AWL warning lamp Status Information and status Messages from SRS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signal from SRS +SRSWarningLamp + + 3 Verify Cloud details after 1 mins + + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - SrsWarningLampFlag + +III If the SRSWarningLamp = 0 + Then SrsWarningLampFlag = 0 Should be updated in cloud + +IV If the SRSWarningLamp= 1 + Then SrsWarningLampFlag = 1 Should be updated in cloud + +V If the SRSWarningLamp = Signal not available OR Any other + Then SrsWarningLampFlag = 4 Should be updated in cloud + +VI Verify AWL warning lamp status Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read below signal from PEPS +PEPsKeyInState +3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -PepsKeyInVehicleFlag + +II If the PEPsKeyInState = 0 + Then PepsKeyInVehicleFlag = 0 Should be updated in cloud + +III If the PEPsKeyInState = 1 + Then PepsKeyInVehicleFlag = 1 Should be updated in cloud + +IV If the PEPsKeyInState = Signal not available OR Any other value + Then PepsKeyInVehicleFlag = 4 Should be updated in cloud + +V Verify Key Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read below signal from PEPS +PEPsKeyInState +3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -PepsKeyInVehicleFlag + +II If the PEPsKeyInState = 0 + Then PepsKeyInVehicleFlag = 0 Should be updated in cloud + +III If the PEPsKeyInState = 1 + Then PepsKeyInVehicleFlag = 1 Should be updated in cloud + +IV If the PEPsKeyInState = Signal not available OR Any other value + Then PepsKeyInVehicleFlag = 4 Should be updated in cloud + +V Verify Key Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read below signal from PEPS +PEPsKeyInState +3 Verify Cloud details after 3 min + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -PepsKeyInVehicleFlag + +II If the PEPsKeyInState = 0 + Then PepsKeyInVehicleFlag = 0 Should be updated in cloud + +III If the PEPsKeyInState = 1 + Then PepsKeyInVehicleFlag = 1 Should be updated in cloud + +IV If the PEPsKeyInState = Signal not available OR Any other value + Then PepsKeyInVehicleFlag = 4 Should be updated in cloud + +V Verify Key Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Key information from PEPS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read below signal from PEPS +PEPsKeyInState +3 Verify Cloud details after 3 min + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element -PepsKeyInVehicleFlag + +III If the PEPsKeyInState = 0 + Then PepsKeyInVehicleFlag = 0 Should be updated in cloud + +IV If the PEPsKeyInState = 1 + Then PepsKeyInVehicleFlag = 1 Should be updated in cloud + +V If the PEPsKeyInState = Signal not available OR Any other value + Then PepsKeyInVehicleFlag = 4 Should be updated in cloud + +VI Verify Key Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in hrs) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the below signals from VCU +TimetoChargeHVHours = (Range: 0 to 23) +TimetoChargeHVHoursStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Element - TimeToChargeHour + +II If the TimetoChargeHVHoursStatus = 0 + Then same value of TimetoChargeHVHours should be updated in cloud. + TimeToChargeHour should be same as TimetoChargeHVHours + +III If the TimetoChargeHVHoursStatus = 2 + Then TimeToChargeHour = 24 Should be updated in cloud + +IV Verify Time to charge (Hrs) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in hrs) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the below signals from VCU +TimetoChargeHVHours = (Range: 0 to 23) +TimetoChargeHVHoursStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Element - TimeToChargeHour + +II If the TimetoChargeHVHoursStatus = 0 + Then same value of TimetoChargeHVHours should be updated in cloud. + TimeToChargeHour should be same as TimetoChargeHVHours + +III If the TimetoChargeHVHoursStatus = 2 + Then TimeToChargeHour = 24 Should be updated in cloud + +IV Verify Time to charge (Hrs) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in hrs) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the below signals from VCU +TimetoChargeHVHours = (Range: 0 to 23) +TimetoChargeHVHoursStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Element - TimeToChargeHour + +II If the TimetoChargeHVHoursStatus = 0 + Then same value of TimetoChargeHVHours should be updated in cloud. + TimeToChargeHour should be same as TimetoChargeHVHours + +III If the TimetoChargeHVHoursStatus = 2 + Then TimeToChargeHour = 24 Should be updated in cloud + +IV Verify Time to charge (Hrs) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in hrs) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the below signals from VCU +TimetoChargeHVHours = (Range: 0 to 23) +TimetoChargeHVHoursStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Element - TimeToChargeHour + +III If the TimetoChargeHVHoursStatus = 0 + Then same value of TimetoChargeHVHours should be updated in cloud. + TimeToChargeHour should be same as TimetoChargeHVHours + +IV If the TimetoChargeHVHoursStatus = 2 + Then TimeToChargeHour = 24 Should be updated in cloud + +V Verify Time to charge (Hrs) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in mins) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the below signals from VCU + TimetoChargeHVMints + TimetoChargeHVMintsStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Element - TimeToChargeMinute + +II If the TimetoChargeHVMintsStatus = 0 + Then same value of TimetoChargeHVMints should be updated in cloud. + TimeToChargeMinute should be same as TimetoChargeHVMints + +III If the TimetoChargeHVMintsStatus = 2 + Then TimeToChargeMinute = 24 Should be updated in cloud + +IV Verify Time to charge (minutes) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in mins) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the below signals from VCU + TimetoChargeHVMints + TimetoChargeHVMintsStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Element - TimeToChargeMinute + +II If the TimetoChargeHVMintsStatus = 0 + Then same value of TimetoChargeHVMints should be updated in cloud. + TimeToChargeMinute should be same as TimetoChargeHVMints + +III If the TimetoChargeHVMintsStatus = 2 + Then TimeToChargeMinute = 24 Should be updated in cloud + +IV Verify Time to charge (minutes) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in mins) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the below signals from VCU + TimetoChargeHVMints + TimetoChargeHVMintsStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Element - TimeToChargeMinute + +II If the TimetoChargeHVMintsStatus = 0 + Then same value of TimetoChargeHVMints should be updated in cloud. + TimeToChargeMinute should be same as TimetoChargeHVMints + +III If the TimetoChargeHVMintsStatus = 2 + Then TimeToChargeMinute = 24 Should be updated in cloud + +IV Verify Time to charge (minutes) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Time to charge HV battery (in mins) information and status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the below signals from VCU + TimetoChargeHVMints + TimetoChargeHVMintsStatus +3 Verify Cloud details after 1 Mins + + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Element - TimeToChargeMinute + +III If the TimetoChargeHVMintsStatus = 0 + Then same value of TimetoChargeHVMints should be updated in cloud. + TimeToChargeMinute should be same as TimetoChargeHVMints + +IV If the TimetoChargeHVMintsStatus = 2 + Then TimeToChargeMinute = 24 Should be updated in cloud + +V Verify Time to charge (minutes) information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3 Verify Cloud details after 1 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale + +II. If the BatteryHighTempStatus = 0 + Then the same value of BatteryHighTemp should be updated in cloud + HighTemperatureTelltale value should be same as BatteryHighTemp + +III If the BatteryHighTempStatus = 2 + Then HighTemperatureTelltale = 5 Should be updated in cloud + +IV Verify High Temperature Telltale Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3 Verify Cloud details after 1 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale + +II. If the BatteryHighTempStatus = 0 + Then the same value of BatteryHighTemp should be updated in cloud + HighTemperatureTelltale value should be same as BatteryHighTemp + +III If the BatteryHighTempStatus = 2 + Then HighTemperatureTelltale = 5 Should be updated in cloud + +IV Verify High Temperature Telltale Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3 Verify Cloud details after 1 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale + +II. If the BatteryHighTempStatus = 0 + Then the same value of BatteryHighTemp should be updated in cloud + HighTemperatureTelltale value should be same as BatteryHighTemp + +III If the BatteryHighTempStatus = 2 + Then HighTemperatureTelltale = 5 Should be updated in cloud + +IV Verify High Temperature Telltale Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU shall receive valid High Temperature Telltale Information Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU + BatteryHighTemp + BatteryHighTempStatus +3 Verify Cloud details after 1 Min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - HighTemperatureTelltale + +III. If the BatteryHighTempStatus = 0 + Then the same value of BatteryHighTemp should be updated in cloud + HighTemperatureTelltale value should be same as BatteryHighTemp + +IV If the BatteryHighTempStatus = 2 + Then HighTemperatureTelltale = 5 Should be updated in cloud + +V Verify High Temperature Telltale Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU + HVChargerConnected + HVChargerConnectedStatus +3 Verify Cloud details after 2 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag + +II If the HVChargerConnectedStatus = 0 + Then the same value of HVChargerConnected should be updated in cloud + HvChargerConnectFlag Value should be same as HVChargerConnected + +III If the HVChargerConnectedStatus = 2 + Then HvChargerConnectFlag = 4 Should be updated in cloud + +IV If HVChargerConnected = 3 or Signal not available OR Any other value + Then HvChargerConnectFlag = 4 Should be updated in cloud + +V Verify HV battery charging status Information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU + HVChargerConnected + HVChargerConnectedStatus +3 Verify Cloud details after 2 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag + +II If the HVChargerConnectedStatus = 0 + Then the same value of HVChargerConnected should be updated in cloud + HvChargerConnectFlag Value should be same as HVChargerConnected + +III If the HVChargerConnectedStatus = 2 + Then HvChargerConnectFlag = 4 Should be updated in cloud + +IV If HVChargerConnected = 3 or Signal not available OR Any other value + Then HvChargerConnectFlag = 4 Should be updated in cloud + +V Verify HV battery charging status Information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU + HVChargerConnected + HVChargerConnectedStatus +3 Verify Cloud details after 2 Min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag + +II If the HVChargerConnectedStatus = 0 + Then the same value of HVChargerConnected should be updated in cloud + HvChargerConnectFlag Value should be same as HVChargerConnected + +III If the HVChargerConnectedStatus = 2 + Then HvChargerConnectFlag = 4 Should be updated in cloud + +IV If HVChargerConnected = 3 or Signal not available OR Any other value + Then HvChargerConnectFlag = 4 Should be updated in cloud + +V Verify HV battery charging status Information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HV battery charging status Information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU + HVChargerConnected + HVChargerConnectedStatus +3 Verify Cloud details after 2 Min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - HvChargerConnectFlag + +III If the HVChargerConnectedStatus = 0 + Then the same value of HVChargerConnected should be updated in cloud + HvChargerConnectFlag Value should be same as HVChargerConnected + +IV If the HVChargerConnectedStatus = 2 + Then HvChargerConnectFlag = 4 Should be updated in cloud + +V If HVChargerConnected = 3 or Signal not available OR Any other value + Then HvChargerConnectFlag = 4 Should be updated in cloud + +VI Verify HV battery charging status Information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Charge Status information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU + LowHVBatteryCharge +3 Verify Cloud details after 1 minonds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =0 + +II If the LowHVBatteryCharge = 0 + Then LowHvBattChargeFlag = 0 Should be updated in cloud + +IiI If the LowHVBatteryCharge = 1 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +IV If the LowHVBatteryCharge = 2 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +V If the LowHVBatteryCharge = 3 + Then LowHvBattChargeFlag = 4 Should be updated in cloud + +VI Verify High Voltage battery Charge status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Charge Status information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU + LowHVBatteryCharge +3 Verify Cloud details after 1 minonds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =0 + +II If the LowHVBatteryCharge = 0 + Then LowHvBattChargeFlag = 0 Should be updated in cloud + +IiI If the LowHVBatteryCharge = 1 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +IV If the LowHVBatteryCharge = 2 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +V If the LowHVBatteryCharge = 3 + Then LowHvBattChargeFlag = 4 Should be updated in cloud + +VI Verify High Voltage battery Charge status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Charge Status information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU + LowHVBatteryCharge +3 Verify Cloud details after 1 minonds + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =0 + +II If the LowHVBatteryCharge = 0 + Then LowHvBattChargeFlag = 0 Should be updated in cloud + +IiI If the LowHVBatteryCharge = 1 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +IV If the LowHVBatteryCharge = 2 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +V If the LowHVBatteryCharge = 3 + Then LowHvBattChargeFlag = 4 Should be updated in cloud + +VI Verify High Voltage battery Charge status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive High Voltage battery Charge Status information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU + LowHVBatteryCharge +3 Verify Cloud details after 1 minonds + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element -LowHvBattChargeFlag =0 + +III If the LowHVBatteryCharge = 0 + Then LowHvBattChargeFlag = 0 Should be updated in cloud + +IV If the LowHVBatteryCharge = 1 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +V If the LowHVBatteryCharge = 2 + Then LowHvBattChargeFlag = 1 Should be updated in cloud + +VI If the LowHVBatteryCharge = 3 + Then LowHvBattChargeFlag = 4 Should be updated in cloud + +VII Verify High Voltage battery Charge status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Drive motor status information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU + DriveMotorStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag + +II If the DriveMotorStatus = 0 + Then DriveMotorStatusFlag = 0 Should be updated in cloud + +II If the DriveMotorStatus = 1 + Then DriveMotorStatusFlag = 1 Should be updated in cloud + +IV II If the DriveMotorStatus = Signal not available OR Any other value + Then DriveMotorStatusFlag = 4 Should be updated in cloud + +V Verify Drive motor status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Drive motor status information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU + DriveMotorStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag + +II If the DriveMotorStatus = 0 + Then DriveMotorStatusFlag = 0 Should be updated in cloud + +II If the DriveMotorStatus = 1 + Then DriveMotorStatusFlag = 1 Should be updated in cloud + +IV II If the DriveMotorStatus = Signal not available OR Any other value + Then DriveMotorStatusFlag = 4 Should be updated in cloud + +V Verify Drive motor status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Drive motor status information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU + DriveMotorStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag + +II If the DriveMotorStatus = 0 + Then DriveMotorStatusFlag = 0 Should be updated in cloud + +II If the DriveMotorStatus = 1 + Then DriveMotorStatusFlag = 1 Should be updated in cloud + +IV II If the DriveMotorStatus = Signal not available OR Any other value + Then DriveMotorStatusFlag = 4 Should be updated in cloud + +V Verify Drive motor status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Drive motor status information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU + DriveMotorStatus +3 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - DriveMotorStatusFlag + +III If the DriveMotorStatus = 0 + Then DriveMotorStatusFlag = 0 Should be updated in cloud + +IV If the DriveMotorStatus = 1 + Then DriveMotorStatusFlag = 1 Should be updated in cloud + +V II If the DriveMotorStatus = Signal not available OR Any other value + Then DriveMotorStatusFlag = 4 Should be updated in cloud + +VI Verify Drive motor status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Brake Vaccume Pump Status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signal from VCU + BrkVaccumePumpStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag + +II If the BrkVacPumpStatus = 0 + Then BrkVaccumePumpStatusFlag = 0 Should be updated in cloud + +II If the BrkVacPumpStatus = 1 + Then BrkVaccumePumpStatusFlag = 1 Should be updated in cloud + +IV II If the BrkVacPumpStatus = Signal not available OR Any other value + Then BrkVaccumePumpStatusFlag = 4 Should be updated in cloud + +V Verify Brake Vaccume Pump Status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Brake Vaccume Pump Status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signal from VCU + BrkVaccumePumpStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag + +II If the BrkVacPumpStatus = 0 + Then BrkVaccumePumpStatusFlag = 0 Should be updated in cloud + +II If the BrkVacPumpStatus = 1 + Then BrkVaccumePumpStatusFlag = 1 Should be updated in cloud + +IV II If the BrkVacPumpStatus = Signal not available OR Any other value + Then BrkVaccumePumpStatusFlag = 4 Should be updated in cloud + +V Verify Brake Vaccume Pump Status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Brake Vaccume Pump Status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signal from VCU + BrkVaccumePumpStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag + +II If the BrkVacPumpStatus = 0 + Then BrkVaccumePumpStatusFlag = 0 Should be updated in cloud + +II If the BrkVacPumpStatus = 1 + Then BrkVaccumePumpStatusFlag = 1 Should be updated in cloud + +IV II If the BrkVacPumpStatus = Signal not available OR Any other value + Then BrkVaccumePumpStatusFlag = 4 Should be updated in cloud + +V Verify Brake Vaccume Pump Status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Brake Vaccume Pump Status Messages from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signal from VCU + BrkVaccumePumpStatus +3 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - BrkVaccumePumpStatusFlag + +III If the BrkVacPumpStatus = 0 + Then BrkVaccumePumpStatusFlag = 0 Should be updated in cloud + +IV If the BrkVacPumpStatus = 1 + Then BrkVaccumePumpStatusFlag = 1 Should be updated in cloud + +V II If the BrkVacPumpStatus = Signal not available OR Any other value + Then BrkVaccumePumpStatusFlag = 4 Should be updated in cloud + +VI Verify Brake Vaccume Pump Status information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from IPC +IcHuBatteryChargingState +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus + +II If theIcHuBatteryChargingState = 0 + LvBatteryChargingStatus = 0 Should be updated in cloud + +II If theIcHuBatteryChargingState = 1 + LvBatteryChargingStatus = 1 Should be updated in cloud + +III If theIcHuBatteryChargingState = 2 + LvBatteryChargingStatus =2 Should be updated in cloud + +III If theIcHuBatteryChargingState = 3 + LvBatteryChargingStatus = 5 Should be updated in cloud + +IV Verify Lv Battery Charging Status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from IPC +IcHuBatteryChargingState +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus + +II If theIcHuBatteryChargingState = 0 + LvBatteryChargingStatus = 0 Should be updated in cloud + +II If theIcHuBatteryChargingState = 1 + LvBatteryChargingStatus = 1 Should be updated in cloud + +III If theIcHuBatteryChargingState = 2 + LvBatteryChargingStatus =2 Should be updated in cloud + +III If theIcHuBatteryChargingState = 3 + LvBatteryChargingStatus = 5 Should be updated in cloud + +IV Verify Lv Battery Charging Status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from IPC +IcHuBatteryChargingState +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus + +II If theIcHuBatteryChargingState = 0 + LvBatteryChargingStatus = 0 Should be updated in cloud + +II If theIcHuBatteryChargingState = 1 + LvBatteryChargingStatus = 1 Should be updated in cloud + +III If theIcHuBatteryChargingState = 2 + LvBatteryChargingStatus =2 Should be updated in cloud + +III If theIcHuBatteryChargingState = 3 + LvBatteryChargingStatus = 5 Should be updated in cloud + +IV Verify Lv Battery Charging Status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Lv Battery Charging Status Value Information and status Messages from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from IPC +IcHuBatteryChargingState +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - LvBatteryChargingStatus + +III If theIcHuBatteryChargingState = 0 + LvBatteryChargingStatus = 0 Should be updated in cloud + +IV If theIcHuBatteryChargingState = 1 + LvBatteryChargingStatus = 1 Should be updated in cloud + +V If theIcHuBatteryChargingState = 2 + LvBatteryChargingStatus =2 Should be updated in cloud + +VI If theIcHuBatteryChargingState = 3 + LvBatteryChargingStatus = 5 Should be updated in cloud + +VII Verify Lv Battery Charging Status Information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive TransmissionMalfunctionFlagl from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +TransServiceIndication +TransServiceIndicationDCT +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TransmissionMalfunctionFlag + +II If TransServiceIndicationDCT = 0 And TransServiceIndication = 0 + TransmissionMalfunctionFlag = 0 Should be updated in cloud + +III If TransServiceIndicationDCT = 1 And TransServiceIndication = 1 + TransmissionMalfunctionFlag = 1 Should be updated in cloud + +IV If TransServiceIndicationDCT = 2 And TransServiceIndication = 2 + TransmissionMalfunctionFlag = 2 Should be updated in cloud + +V If TransSeTransServiceIndicationDCT = Signal not available OR Any other value + TransmissionMalfunctionFlag = 4 Should be updated in cloud + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU interally receive valid Tcu Health State Information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from TCU +Internal to TCM = (Range 0 to 100) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details : + a Health Record Element - TcuBattLevelPercen + +II If Internal to TCM value is in between 0 to 100 + Then the TcuBattLevelPercen value should be same as Internal to TCM value should be updated in cloud + +III If Internal to TCM value is out of this range 0 to 100 + Then the TcuBattLevelPercen = 101 should be updated in cloud + +IV VerifyTCU interally receive valid Tcu Health State Information is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU interally receive valid Tcu Health State Information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from TCU +Internal to TCM = (Range 0 to 100) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details : + a Health Record Element - TcuBattLevelPercen + +II If Internal to TCM value is in between 0 to 100 + Then the TcuBattLevelPercen value should be same as Internal to TCM value should be updated in cloud + +III If Internal to TCM value is out of this range 0 to 100 + Then the TcuBattLevelPercen = 101 should be updated in cloud + +IV VerifyTCU interally receive valid Tcu Health State Information is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU interally receive valid Tcu Health State Information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from TCU +Internal to TCM = (Range 0 to 100) +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details : + a Health Record Element - TcuBattLevelPercen + +II If Internal to TCM value is in between 0 to 100 + Then the TcuBattLevelPercen value should be same as Internal to TCM value should be updated in cloud + +III If Internal to TCM value is out of this range 0 to 100 + Then the TcuBattLevelPercen = 101 should be updated in cloud + +IV VerifyTCU interally receive valid Tcu Health State Information is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3)TCU interally receive valid Tcu Health State Information + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from TCU +Internal to TCM = (Range 0 to 100) +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details : + a Health Record Element - TcuBattLevelPercen + +III If Internal to TCM value is in between 0 to 100 + Then the TcuBattLevelPercen value should be same as Internal to TCM value should be updated in cloud + +IV If Internal to TCM value is out of this range 0 to 100 + Then the TcuBattLevelPercen = 101 should be updated in cloud + +V VerifyTCU interally receive valid Tcu Health State Information is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from TPMS1 +TpmsFaultStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError + +II If the TpmsFaultStatus = 0 + Then TPMsError = 0 Should be updated in cloud + +III If the TpmsFaultStatus = 1 or 2 + Then TPMsError = 4 Should be updated in cloud + +IV If the TpmsFaultStatus = 3 + Then TPMsError =1 Should be updated in cloud + +V Verify TPMsError Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from TPMS1 +TpmsFaultStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError + +II If the TpmsFaultStatus = 0 + Then TPMsError = 0 Should be updated in cloud + +III If the TpmsFaultStatus = 1 or 2 + Then TPMsError = 4 Should be updated in cloud + +IV If the TpmsFaultStatus = 3 + Then TPMsError =1 Should be updated in cloud + +V Verify TPMsError Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from TPMS1 +TpmsFaultStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - TPMsError + +II If the TpmsFaultStatus = 0 + Then TPMsError = 0 Should be updated in cloud + +III If the TpmsFaultStatus = 1 or 2 + Then TPMsError = 4 Should be updated in cloud + +IV If the TpmsFaultStatus = 3 + Then TPMsError =1 Should be updated in cloud + +V Verify TPMsError Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid TPMsError Information and status Messages from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from TPMS1 +TpmsFaultStatus +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - TPMsError + +III If the TpmsFaultStatus = 0 + Then TPMsError = 0 Should be updated in cloud + +IV If the TpmsFaultStatus = 1 or 2 + Then TPMsError = 4 Should be updated in cloud + +V If the TpmsFaultStatus = 3 + Then TPMsError =1 Should be updated in cloud + +VI Verify TPMsError Information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from TPMS +SensorMalfncFaultFR +PresLeakageAlertFR + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontRightWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR= 1 + Then FrontRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=1 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from TPMS +SensorMalfncFaultFR +PresLeakageAlertFR + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontRightWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR= 1 + Then FrontRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=1 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from TPMS +SensorMalfncFaultFR +PresLeakageAlertFR + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontRightWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR= 1 + Then FrontRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=1 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from TPMS +SensorMalfncFaultFR +PresLeakageAlertFR + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontRightWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=0 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFR = 0 And PresLeakageAlertFR= 1 + Then FrontRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFR = 1 And PresLeakageAlertFR=1 + Then FrontRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Right Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from TPMS +SensorMalfncFaultFL +PresLeakageAlertFL + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontLeftWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL= 1 + Then FrontLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=1 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from TPMS +SensorMalfncFaultFL +PresLeakageAlertFL + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontLeftWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL= 1 + Then FrontLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=1 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from TPMS +SensorMalfncFaultFL +PresLeakageAlertFL + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontLeftWheelTyrePressureSensorFault +II If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL= 1 + Then FrontLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=1 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from TPMS +SensorMalfncFaultFL +PresLeakageAlertFL + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FrontLeftWheelTyrePressureSensorFault + +II If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=0 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultFL = 0 And PresLeakageAlertFL= 1 + Then FrontLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultFL = 1 And PresLeakageAlertFL=1 + Then FrontLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultFR = Signal Not available or any other value + Then FrontRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Front Left Tyre information is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from TPMS +SensorMalfncFaultRR +PresLeakageAlertRR + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearRightWheelTyrePressureSensorFault + +II If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultRR = Signal not available or any other value + Then RearRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from TPMS +SensorMalfncFaultRR +PresLeakageAlertRR + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearRightWheelTyrePressureSensorFault + +II If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultRR = Signal not available or any other value + Then RearRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from TPMS +SensorMalfncFaultRR +PresLeakageAlertRR + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearRightWheelTyrePressureSensorFault + +II If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultRR = Signal not available or any other value + Then RearRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from TPMS +SensorMalfncFaultRR +PresLeakageAlertRR + +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - RearRightWheelTyrePressureSensorFault + +III If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 0 Should be updated in cloud + +IV If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=0 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +V If the SensorMalfncFaultRR =0 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 2 Should be updated in cloud + +VI If the SensorMalfncFaultRR =1 And PresLeakageAlertRR=1 + Then RearRightWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VII If SensorMalfncFaultRR = Signal not available or any other value + Then RearRightWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VIII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from TPMS +SensorMalfncFaultRL +PresLeakageAlertRL + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearLeftWheelTyrePressureSensorFault + +II If SensorMalfncFaultRL =0 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If SensorMalfncFaultRL =1 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If SensorMalfncFaultRL =0 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If SensorMalfncFaultRL =1 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultRL = Signal not available or any other value + Then RearLeftWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from TPMS +SensorMalfncFaultRL +PresLeakageAlertRL + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearLeftWheelTyrePressureSensorFault + +II If SensorMalfncFaultRL =0 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If SensorMalfncFaultRL =1 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If SensorMalfncFaultRL =0 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If SensorMalfncFaultRL =1 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultRL = Signal not available or any other value + Then RearLeftWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from TPMS +SensorMalfncFaultRL +PresLeakageAlertRL + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - RearLeftWheelTyrePressureSensorFault + +II If SensorMalfncFaultRL =0 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +III If SensorMalfncFaultRL =1 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +IV If SensorMalfncFaultRL =0 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +V If SensorMalfncFaultRL =1 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultRL = Signal not available or any other value + Then RearLeftWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for Rear Left Tyre information from TPMS1 + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from TPMS +SensorMalfncFaultRL +PresLeakageAlertRL + +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - RearLeftWheelTyrePressureSensorFault + +III If SensorMalfncFaultRL =0 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 0 Should be updated in cloud + +IV If SensorMalfncFaultRL =1 And PresLeakageAlertRL=0 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +V If SensorMalfncFaultRL =0 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 2 Should be updated in cloud + +VI If SensorMalfncFaultRL =1 And PresLeakageAlertRL=1 + Then RearLeftWheelTyrePressureSensorFault = 1 Should be updated in cloud + +VII If SensorMalfncFaultRL = Signal not available or any other value + Then RearLeftWheelTyrePressureSensorFault = 5 Should be updated in cloud + +VIII Verify Sensor Malfunction Fault and presurre leakage alert for Rear Right Tyre information is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for SpareTyre information from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from TPMS +SensorMalfncFaultSpare +PresLeakageAlertSpare + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureSensorFault + +II If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 0 Should be updated in cloud + +III If SensorMalfncFaultSpare=1 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +IV If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=1 + Then SpareTyrePressureSensorFault = 2 Should be updated in cloud + +V If SensorMalfncFaultSpare= 1 And PresLeakageAlertSpare= 1 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultSpare= Signal not available or any other value + Then SpareTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify SSensor Malfunction Fault and presurre leakage alert for SpareTyre information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for SpareTyre information from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from TPMS +SensorMalfncFaultSpare +PresLeakageAlertSpare + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureSensorFault + +II If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 0 Should be updated in cloud + +III If SensorMalfncFaultSpare=1 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +IV If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=1 + Then SpareTyrePressureSensorFault = 2 Should be updated in cloud + +V If SensorMalfncFaultSpare= 1 And PresLeakageAlertSpare= 1 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultSpare= Signal not available or any other value + Then SpareTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify SSensor Malfunction Fault and presurre leakage alert for SpareTyre information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for SpareTyre information from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from TPMS +SensorMalfncFaultSpare +PresLeakageAlertSpare + +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureSensorFault + +II If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 0 Should be updated in cloud + +III If SensorMalfncFaultSpare=1 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +IV If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=1 + Then SpareTyrePressureSensorFault = 2 Should be updated in cloud + +V If SensorMalfncFaultSpare= 1 And PresLeakageAlertSpare= 1 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +VI If SensorMalfncFaultSpare= Signal not available or any other value + Then SpareTyrePressureSensorFault = 5 Should be updated in cloud + +VII Verify SSensor Malfunction Fault and presurre leakage alert for SpareTyre information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid Sensor Malfunction Fault and presurre leakage alert for SpareTyre information from TPMS1 + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is Sleep + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from TPMS +SensorMalfncFaultSpare +PresLeakageAlertSpare + +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - SpareTyrePressureSensorFault + +III If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 0 Should be updated in cloud + +IV If SensorMalfncFaultSpare=1 And PresLeakageAlertSpare=0 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +V If SensorMalfncFaultSpare=0 And PresLeakageAlertSpare=1 + Then SpareTyrePressureSensorFault = 2 Should be updated in cloud + +VI If SensorMalfncFaultSpare= 1 And PresLeakageAlertSpare= 1 + Then SpareTyrePressureSensorFault = 1 Should be updated in cloud + +VII If SensorMalfncFaultSpare= Signal not available or any other value + Then SpareTyrePressureSensorFault = 5 Should be updated in cloud + +VIII Verify SSensor Malfunction Fault and presurre leakage alert for SpareTyre information is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive high temperature status of the traction motor information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU + MotorHighTemp + MotorHighTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - MotorHighTemp + +II If the MotorHightempStatus = 0 + Then the same value of MotorHighTemp should be updated in cloud + +III If the MotorHightempStatus = 2 + MotorHighTemp = 5 should be updated in cloud + +IV Verify the high temperature status of the traction motor information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive high temperature status of the traction motor information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU + MotorHighTemp + MotorHighTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - MotorHighTemp + +II If the MotorHightempStatus = 0 + Then the same value of MotorHighTemp should be updated in cloud + +III If the MotorHightempStatus = 2 + MotorHighTemp = 5 should be updated in cloud + +IV Verify the high temperature status of the traction motor information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive high temperature status of the traction motor information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU + MotorHighTemp + MotorHighTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - MotorHighTemp + +II If the MotorHightempStatus = 0 + Then the same value of MotorHighTemp should be updated in cloud + +III If the MotorHightempStatus = 2 + MotorHighTemp = 5 should be updated in cloud + +IV Verify the high temperature status of the traction motor information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive high temperature status of the traction motor information from VCU + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU + MotorHighTemp + MotorHighTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - MotorHighTemp + +III If the MotorHightempStatus = 0 + Then the same value of MotorHighTemp should be updated in cloud + +IV If the MotorHightempStatus = 2 + MotorHighTemp = 5 should be updated in cloud + +V Verify the high temperature status of the traction motor information is displayed in the Mobile App + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HDc Status from ABS/ESP + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from Brake2 + HDcStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HdcStateFlag + +II If HDcStatus = 0 + Then HdcStateFlag = 0 Should be updated in cloud + +III If HDcStatus = 1 + Then HdcStateFlag = 1 Should be updated in cloud + +IV If HDcStatus = 2 + Then HdcStateFlag = 2 Should be updated in cloud + +V If HDcStatus = 3 + Then HdcStateFlag = 3 Should be updated in cloud + +VI If HDcStatus = Signal not available OR Any other value + Then HdcStateFlag = 6 Should be updated in cloud + + VII Verify HDC status is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HDc Status from ABS/ESP + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from Brake2 + HDcStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HdcStateFlag + +II If HDcStatus = 0 + Then HdcStateFlag = 0 Should be updated in cloud + +III If HDcStatus = 1 + Then HdcStateFlag = 1 Should be updated in cloud + +IV If HDcStatus = 2 + Then HdcStateFlag = 2 Should be updated in cloud + +V If HDcStatus = 3 + Then HdcStateFlag = 3 Should be updated in cloud + +VI If HDcStatus = Signal not available OR Any other value + Then HdcStateFlag = 6 Should be updated in cloud + + VII Verify HDC status is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HDc Status from ABS/ESP + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from Brake2 + HDcStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HdcStateFlag + +II If HDcStatus = 0 + Then HdcStateFlag = 0 Should be updated in cloud + +III If HDcStatus = 1 + Then HdcStateFlag = 1 Should be updated in cloud + +IV If HDcStatus = 2 + Then HdcStateFlag = 2 Should be updated in cloud + +V If HDcStatus = 3 + Then HdcStateFlag = 3 Should be updated in cloud + +VI If HDcStatus = Signal not available OR Any other value + Then HdcStateFlag = 6 Should be updated in cloud + + VII Verify HDC status is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid HDc Status from ABS/ESP + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from Brake2 + HDcStatus +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - HdcStateFlag + +III If HDcStatus = 0 + Then HdcStateFlag = 0 Should be updated in cloud + +IV If HDcStatus = 1 + Then HdcStateFlag = 1 Should be updated in cloud + +V If HDcStatus = 2 + Then HdcStateFlag = 2 Should be updated in cloud + +VI If HDcStatus = 3 + Then HdcStateFlag = 3 Should be updated in cloud + +VII If HDcStatus = Signal not available OR Any other value + Then HdcStateFlag = 6 Should be updated in cloud + + VIII Verify HDC status is displayed in the Mobile App + + + + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Approch Lamp On Flag from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from BCM + ApprochLampState + ApprochLampStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - ApprochLampOnFlag + +II If the ApprochLampStateStatus = 0 + Then same value of ApprochLampState should be updated in cloud + ApprochLampOnFlag Value should be same as ApprochLampState value + +III If the ApprochLampStateStatus = 2 + ApprochLampOnFlag = 4 Should be updated in cloud + +IV If the ApprochLampStateStatus = 1 or 3 + ApprochLampOnFlag = 4 Should be updated in cloud + +V If the ApprochLampState = Signal not available OR Any other value + ApprochLampOnFlag = 4 Should be updated in cloud + + +VI Verify the Approach lamp status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Approch Lamp On Flag from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from BCM + ApprochLampState + ApprochLampStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - ApprochLampOnFlag + +II If the ApprochLampStateStatus = 0 + Then same value of ApprochLampState should be updated in cloud + ApprochLampOnFlag Value should be same as ApprochLampState value + +III If the ApprochLampStateStatus = 2 + ApprochLampOnFlag = 4 Should be updated in cloud + +IV If the ApprochLampStateStatus = 1 or 3 + ApprochLampOnFlag = 4 Should be updated in cloud + +V If the ApprochLampState = Signal not available OR Any other value + ApprochLampOnFlag = 4 Should be updated in cloud + + +VI Verify the Approach lamp status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Approch Lamp On Flag from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 8 +2 Read the Below signals from BCM + ApprochLampState + ApprochLampStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - ApprochLampOnFlag + +II If the ApprochLampStateStatus = 0 + Then same value of ApprochLampState should be updated in cloud + ApprochLampOnFlag Value should be same as ApprochLampState value + +III If the ApprochLampStateStatus = 2 + ApprochLampOnFlag = 4 Should be updated in cloud + +IV If the ApprochLampStateStatus = 1 or 3 + ApprochLampOnFlag = 4 Should be updated in cloud + +V If the ApprochLampState = Signal not available OR Any other value + ApprochLampOnFlag = 4 Should be updated in cloud + + +VI Verify the Approach lamp status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) Cloud receives Remote Health check request from App +3) TCU shall receive valid Approch Lamp On Flag from BCM + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from BCM + ApprochLampState + ApprochLampStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - ApprochLampOnFlag + +III If the ApprochLampStateStatus = 0 + Then same value of ApprochLampState should be updated in cloud + ApprochLampOnFlag Value should be same as ApprochLampState value + +IV If the ApprochLampStateStatus = 2 + ApprochLampOnFlag = 4 Should be updated in cloud + +V If the ApprochLampStateStatus = 1 or 3 + ApprochLampOnFlag = 4 Should be updated in cloud + +VI If the ApprochLampState = Signal not available OR Any other value + ApprochLampOnFlag = 4 Should be updated in cloud + + +VII Verify the Approach lamp status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid MiLampState Status from EMS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from EMS + MiLampState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - MilLampOnFlag + +II If the MiLampState = 0 + MilLampOnFlag = 0 Should be updated in cloud + +III If the MiLampState = 1 + MilLampOnFlag = 1 Should be updated in cloud + +IV If the MiLampState = 2 + MilLampOnFlag = 1 Should be updated in cloud + +V If the MiLampState = 3 + MilLampOnFlag = 4 Should be updated in cloud + +VI Verify the MiLampState status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid MiLampState Status from EMS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from EMS + MiLampState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - MilLampOnFlag + +II If the MiLampState = 0 + MilLampOnFlag = 0 Should be updated in cloud + +III If the MiLampState = 1 + MilLampOnFlag = 1 Should be updated in cloud + +IV If the MiLampState = 2 + MilLampOnFlag = 1 Should be updated in cloud + +V If the MiLampState = 3 + MilLampOnFlag = 4 Should be updated in cloud + +VI Verify the MiLampState status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid MiLampState Status from EMS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from EMS + MiLampState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - MilLampOnFlag + +II If the MiLampState = 0 + MilLampOnFlag = 0 Should be updated in cloud + +III If the MiLampState = 1 + MilLampOnFlag = 1 Should be updated in cloud + +IV If the MiLampState = 2 + MilLampOnFlag = 1 Should be updated in cloud + +V If the MiLampState = 3 + MilLampOnFlag = 4 Should be updated in cloud + +VI Verify the MiLampState status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid MiLampState Status from EMS + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from EMS + MiLampState + 3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - MilLampOnFlag + +III If the MiLampState = 0 + MilLampOnFlag = 0 Should be updated in cloud + +IV If the MiLampState = 1 + MilLampOnFlag = 1 Should be updated in cloud + +V If the MiLampState = 2 + MilLampOnFlag = 1 Should be updated in cloud + +VI If the MiLampState = 3 + MilLampOnFlag = 4 Should be updated in cloud + +VII Verify the MiLampState status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Low Fuel Output from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from IPC + LowFuelOutputIC = 0 + LowFuelOutputICStatus=0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FuelLevelLowFlag + +II If the LowFuelOutputICStatus = 0 + Then the same value of LowFuelOutputIC Should be updated in cloud + FuelLevelLowFlag value should be same as LowFuelOutputIC + +III If the LowFuelOutputICStatus = 2 OR 3 + Then FuelLevelLowFlag = 4 Should be updated in cloud + +IV If the LowFuelOutputIC = Signal not available OR Any other value + Then MilLampOnFlag = 1 Should be updated in cloud + +V Verify the Low Fuel Output status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Low Fuel Output from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from IPC + LowFuelOutputIC = 0 + LowFuelOutputICStatus=0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FuelLevelLowFlag + +II If the LowFuelOutputICStatus = 0 + Then the same value of LowFuelOutputIC Should be updated in cloud + FuelLevelLowFlag value should be same as LowFuelOutputIC + +III If the LowFuelOutputICStatus = 2 OR 3 + Then FuelLevelLowFlag = 4 Should be updated in cloud + +IV If the LowFuelOutputIC = Signal not available OR Any other value + Then MilLampOnFlag = 1 Should be updated in cloud + +V Verify the Low Fuel Output status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Low Fuel Output from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from IPC + LowFuelOutputIC = 0 + LowFuelOutputICStatus=0 +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FuelLevelLowFlag + +II If the LowFuelOutputICStatus = 0 + Then the same value of LowFuelOutputIC Should be updated in cloud + FuelLevelLowFlag value should be same as LowFuelOutputIC + +III If the LowFuelOutputICStatus = 2 OR 3 + Then FuelLevelLowFlag = 4 Should be updated in cloud + +IV If the LowFuelOutputIC = Signal not available OR Any other value + Then MilLampOnFlag = 1 Should be updated in cloud + +V Verify the Low Fuel Output status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Low Fuel Output from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from IPC + LowFuelOutputIC = 0 + LowFuelOutputICStatus=0 +3 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - FuelLevelLowFlag + +III If the LowFuelOutputICStatus = 0 + Then the same value of LowFuelOutputIC Should be updated in cloud + FuelLevelLowFlag value should be same as LowFuelOutputIC + +IV If the LowFuelOutputICStatus = 2 OR 3 + Then FuelLevelLowFlag = 4 Should be updated in cloud + +V If the LowFuelOutputIC = Signal not available OR Any other value + Then MilLampOnFlag = 1 Should be updated in cloud + +VI Verify the Low Fuel Output status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Engine Oil pressure low state from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from IPC + IcHuEngineOilPressureLowState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EngineOilPresLowFlag + +II If IcHuEngineOilPressureLowState = 0 + Then EngineOilPresLowFlag = 0 Should be updated in cloud + +III If IcHuEngineOilPressureLowState = 1 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +IV If IcHuEngineOilPressureLowState = 2 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +V If IcHuEngineOilPressureLowState = 3 + Then EngineOilPresLowFlag = 4 Should be updated in cloud + +VI Verify theEngine Oil pressure low state is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Engine Oil pressure low state from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from IPC + IcHuEngineOilPressureLowState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EngineOilPresLowFlag + +II If IcHuEngineOilPressureLowState = 0 + Then EngineOilPresLowFlag = 0 Should be updated in cloud + +III If IcHuEngineOilPressureLowState = 1 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +IV If IcHuEngineOilPressureLowState = 2 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +V If IcHuEngineOilPressureLowState = 3 + Then EngineOilPresLowFlag = 4 Should be updated in cloud + +VI Verify theEngine Oil pressure low state is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Engine Oil pressure low state from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from IPC + IcHuEngineOilPressureLowState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - EngineOilPresLowFlag + +II If IcHuEngineOilPressureLowState = 0 + Then EngineOilPresLowFlag = 0 Should be updated in cloud + +III If IcHuEngineOilPressureLowState = 1 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +IV If IcHuEngineOilPressureLowState = 2 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +V If IcHuEngineOilPressureLowState = 3 + Then EngineOilPresLowFlag = 4 Should be updated in cloud + +VI Verify the Engine Oil pressure low state is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Engine Oil pressure low state from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from IPC + IcHuEngineOilPressureLowState + 3 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - EngineOilPresLowFlag + +III If IcHuEngineOilPressureLowState = 0 + Then EngineOilPresLowFlag = 0 Should be updated in cloud + +IV If IcHuEngineOilPressureLowState = 1 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +V If IcHuEngineOilPressureLowState = 2 + Then EngineOilPresLowFlag = 1 Should be updated in cloud + +VI If IcHuEngineOilPressureLowState = 3 + Then EngineOilPresLowFlag = 4 Should be updated in cloud + +VII Verify the Engine Oil pressure low state is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Parking brake status from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from IPC + ParkBrkState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - ParkBrakePressStateFlag + +II If the ParkBrkState = 0 + Then ParkBrakePressStateFlag = 0 Should be updated in cloud + +III If the ParkBrkState = 1 + Then ParkBrakePressStateFlag = 1 Should be updated in cloud + + +IV If the ParkBrkState = Signal not available OR Any other value + Then ParkBrakePressStateFlag = 4 Should be updated in cloud + +V Verify the valid Parking brake status is displayed in the Mobile App + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Parking brake status from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from IPC + ParkBrkState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - ParkBrakePressStateFlag + +II If the ParkBrkState = 0 + Then ParkBrakePressStateFlag = 0 Should be updated in cloud + +III If the ParkBrkState = 1 + Then ParkBrakePressStateFlag = 1 Should be updated in cloud + + +IV If the ParkBrkState = Signal not available OR Any other value + Then ParkBrakePressStateFlag = 4 Should be updated in cloud + +V Verify the valid Parking brake status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Parking brake status from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Awake + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from IPC + ParkBrkState + 3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - ParkBrakePressStateFlag + +II If the ParkBrkState = 0 + Then ParkBrakePressStateFlag = 0 Should be updated in cloud + +III If the ParkBrkState = 1 + Then ParkBrakePressStateFlag = 1 Should be updated in cloud + + +IV If the ParkBrkState = Signal not available OR Any other value + Then ParkBrakePressStateFlag = 4 Should be updated in cloud + +V Verify the valid Parking brake status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid Parking brake status from IPC + +Pre-condition: +1) The Lab car is equipped with TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) The TCU, VCU, IPC, BCM, FATC and other ECUs are present and are operational +4)TCU is Sleep + + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from IPC + ParkBrkState + 3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - ParkBrakePressStateFlag + +III If the ParkBrkState = 0 + Then ParkBrakePressStateFlag = 0 Should be updated in cloud + +IV If the ParkBrkState = 1 + Then ParkBrakePressStateFlag = 1 Should be updated in cloud + + +V If the ParkBrkState = Signal not available OR Any other value + Then ParkBrakePressStateFlag = 4 Should be updated in cloud + +VI Verify the valid Parking brake status is displayed in the Mobile App + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid FuelRemaining in liters information from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from IPC + IcHuFuelVolumeInfoLtrs +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FuelRemaining + +II If the IcHuFuelVolumeInfoLtrs value is between in range of 0-65 + Then FuelRemaining = 0- 65 should be updated in cloud + +III If the IcHuFuelVolumeInfoLtrs value is out range this range 0-65 + Then FuelRemaining = 651 should be updated in cloud + + +IIV Verify the FuelRemaining in liters information status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid FuelRemaining in liters information from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from IPC + IcHuFuelVolumeInfoLtrs +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FuelRemaining + +II If the IcHuFuelVolumeInfoLtrs value is between in range of 0-65 + Then FuelRemaining = 0- 65 should be updated in cloud + +III If the IcHuFuelVolumeInfoLtrs value is out range this range 0-65 + Then FuelRemaining = 651 should be updated in cloud + + +IIV Verify the FuelRemaining in liters information status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid FuelRemaining in liters information from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from IPC + IcHuFuelVolumeInfoLtrs +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - FuelRemaining + +II If the IcHuFuelVolumeInfoLtrs value is between in range of 0-65 + Then FuelRemaining = 0- 65 should be updated in cloud + +III If the IcHuFuelVolumeInfoLtrs value is out range this range 0-65 + Then FuelRemaining = 651 should be updated in cloud + + +IIV Verify the FuelRemaining in liters information status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid FuelRemaining in liters information from IPC + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is Sleep + + + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from IPC + IcHuFuelVolumeInfoLtrs +3 Verify Cloud details after 1 min + + +Expected Output: +I Cloud shall wake up TCU over SMS + +II Verify the following details in the Cloud: + a Health Record Element - FuelRemaining + +III If the IcHuFuelVolumeInfoLtrs value is between in range of 0-65 + Then FuelRemaining = 0- 65 should be updated in cloud + +IV If the IcHuFuelVolumeInfoLtrs value is out range this range 0-65 + Then FuelRemaining = 651 should be updated in cloud + +V Verify the FuelRemaining in liters information status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState + +II If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + BatteryChargeState value should be same as HvChargingState + +III If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState =4 should be updated in cloud + + +IV Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState + +II If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + BatteryChargeState value should be same as HvChargingState + +III If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState =4 should be updated in cloud + + +IV Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState + +II If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + BatteryChargeState value should be same as HvChargingState + +III If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState =4 should be updated in cloud + + +IV Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is Sleep + + + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - BatteryChargeState + +III If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + BatteryChargeState value should be same as HvChargingState + +IV If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState =4 should be updated in cloud + + +V Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState + +II If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + + +III If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState = 4 should be updated in cloud + + +IV Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState + +II If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + + +III If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState = 4 should be updated in cloud + + +IV Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Crank +Powermode state = 9 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvChargingState + +II If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + + +III If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState = 4 should be updated in cloud + + +IV Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive valid HV Battery charging status from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is Sleep + + + + + +Test Procedure: +1 Set the Power Mode as Awake +Powermode state = 1 +2 Read the Below signals from VCU +HvChargingState +HvChargingStateStatus +3 Verify Cloud details after 1 min + + +Expected Output: + +I Cloud shall wake up TCU over SMS +II Verify the following details in the Cloud: + a Health Record Element - HvChargingState + +III If theHvChargingStateStatus = 0 + Then the same value of HvChargingState should be updated in cloud + + +IV If the IHvChargingStateStatus = 2, 3 or 1 + BatteryChargeState = 4 should be updated in cloud + + +V Verify theHV Battery charging status is displayed in the Mobile App + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattMaxCellTemp status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Active +Powermode state = 6 +2 Read the Below signals from VCU +HvBattMaxCellTemp +HvBattMaxCellTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattMaxCellTemp + +II If the HvBattMaxCellTempStatus = 0 + Thenp same value of HvBattMaxCellTem should be updated in cloud + HvBattMaxCellTemp same as HvBattMaxCellTemp + +III If the HvBattMaxCellTempStatus = 2 +HvBattMaxCellTemp = 201 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2) TCU shall receive valid HvBattMaxCellTemp status information + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 mints +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read the Below signals from VCU +HvBattMaxCellTemp +HvBattMaxCellTempStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element - HvBattMaxCellTemp + +II If the HvBattMaxCellTempStatus = 0 + Thenp same value of HvBattMaxCellTem should be updated in cloud + HvBattMaxCellTemp same as HvBattMaxCellTemp + +III If the HvBattMaxCellTempStatus = 2 +HvBattMaxCellTemp = 201 Should be updated in cloud + + + + +======================================== + +======================================== + +Test Description: +1) TCU is in the authorized state +2)TCU shall receive Distance to Empty from VCU + +Pre-condition: +1) TCU with a functioning SIM +2) TCU SIM card have sufficient network strength +3) Configure TCU Time Interval for 1 min +4) TCU is awake + + + + + +Test Procedure: +1 Set the Power Mode as Run +Powermode state = 8 +2 Read Below signals from VCU +DTeInfo +DteInfoStatus +3 Verify Cloud details after 1 min + + +Expected Output: + + +I Verify the following details in the Cloud: + a Health Record Element -Distance to Empty + +II If DteInfoStatus = 0 + Same value of DTeInfo should be updated on cloud + +III If DteInfoStatus = 2 + Distance to Empty = 1000 should be updated on cloud + + + +======================================== + +======================================== +