Dataset Viewer
command
large_stringlengths 4
40
| description
dict | schema_match
bool 2
classes | schema_error
large_stringclasses 37
values | duplicate
bool 2
classes |
|---|---|---|---|---|
:SERial? | {
"name": ":SERial?",
"syntax": ":SERial?",
"query_syntax": ":SERial?",
"parameters": [],
"description": "The :SERial? query returns the serial number of the instrument.",
"return_format": "Unquoted string<NL>",
"return_format_values": null,
"examples": [],
"see_also": null
} | true | null | false |
:STOP | {
"name": ":STOP",
"syntax": ":STOP",
"query_syntax": "",
"parameters": [],
"description": "Stops the acquisition. This is the same as pressing the Stop key on the front panel.",
"return_format": "",
"return_format_values": null,
"examples": [],
"see_also": null
} | true | null | false |
:RUN | {
"name": ":RUN",
"syntax": ":RUN",
"query_syntax": "",
"parameters": [],
"description": "Starts repetitive acquisitions on the oscilloscope.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Start repetitive acquisitions",
"code": ":RUN"
}
],
"see_also": null
} | true | null | false |
:OPERegister:CONDition? | {
"name": ":OPERegister:CONDition?",
"syntax": ":OPERegister:CONDition?",
"query_syntax": ":OPERegister:CONDition?",
"parameters": [],
"description": "The :OPERegister:CONDition? query returns the integer value contained in the Operation Status Condition Register.",
"return_format": "<value><NL>\n<value> ::= integer in NR1 format.",
"return_format_values": null,
"examples": [
{
"description": "Query the Operation Status Condition Register",
"code": ":OPERegister:CONDition?"
}
],
"see_also": null
} | true | null | false |
:ABUS:CLEar | {
"name": ":ABUS:CLEar",
"syntax": ":ABUS:CLEar",
"query_syntax": "",
"parameters": [],
"description": "The :ABUS:CLEar command excludes all of the analog channels from the selected bus definition.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Excludes all analog channels from the selected bus definition",
"code": ":ABUS:CLEar"
}
],
"see_also": null
} | true | null | false |
:MTERegister[:EVENt]? | {
"name": ":MTERegister[:EVENt]?",
"syntax": ":MTERegister[:EVENt]?",
"query_syntax": ":MTERegister[:EVENt]?",
"parameters": [],
"description": "The :MTERegister[:EVENt]? query returns the integer value contained in the Mask Test Event Event Register and clears the register.",
"return_format": "<value><NL>\n<value> ::= integer in NR1 format.",
"return_format_values": null,
"examples": [
{
"description": "Query the Mask Test Event Event Register",
"code": ":MTERegister[:EVENt]?"
}
],
"see_also": null
} | true | null | false |
:OVLRegister? | {
"name": ":OVLRegister?",
"syntax": ":OVLRegister?",
"query_syntax": ":OVLRegister?",
"parameters": [],
"description": "The :OVLRegister query returns the overload protection value stored in the Overload Event Register (OVLR). A \"1\" indicates an overload has occurred.",
"return_format": "<value><NL>\n<value> ::= integer in NR1 format.",
"return_format_values": null,
"examples": [
{
"description": "Query the Overload Event Register",
"code": ":OVLRegister?"
}
],
"see_also": null
} | true | null | false |
:ACQuire:SEGMented:ANALyze | {
"name": ":ACQuire:SEGMented:ANALyze",
"syntax": ":ACQuire:SEGMented:ANALyze",
"query_syntax": "",
"parameters": [],
"description": "This command calculates measurement statistics and/or infinite persistence over all segments that have been acquired. It corresponds to the front panel Analyze Segments softkey which appears in the Segmented Memory menu. In order to use this command, the oscilloscope must be stopped and in segmented acquisition mode, with either quick measurements or infinite persistence on.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Calculate measurement statistics and/or infinite persistence over all segments",
"code": ":ACQuire:SEGMented:ANALyze"
}
],
"see_also": null
} | true | null | false |
:PRINT | {
"name": ":PRINT",
"syntax": ":PRINT [<options>]",
"query_syntax": "",
"parameters": [
{
"name": "<options>",
"type": "string",
"enum": [
"COLor",
"GRAYscale",
"PRINter0",
"PRINter1",
"BMP8bit",
"BMP",
"PNG",
"NOFactors",
"FACTors"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "The <print option> parameter may be repeated up to 5 times.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The PRINt command formats the output according to the currently selected format (device). If an option is not specified, the value selected in the Print Config menu is used.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Print the output",
"code": ":PRINT"
}
],
"see_also": null
} | true | null | false |
:AER? | {
"name": ":AER?",
"syntax": ":AER?",
"query_syntax": ":AER?",
"parameters": [],
"description": "The AER query reads the Arm Event Register. After the Arm Event Register is read, it is cleared. A \"1\" indicates the trigger system is in the armed state, ready to accept a trigger. The Armed Event Register is summarized in the Wait Trig bit of the Operation Status Event Register. A Service Request can be generated when the Wait Trig bit transitions and the appropriate enable bits have been set in the Operation Status Enable Register (OPEE) and the Service Request Enable Register (SRE).",
"return_format": "<value><NL>, where <value> ::= {0 | 1}; an integer in NR1 format.",
"return_format_values": null,
"examples": [
{
"description": "Read the Arm Event Register",
"code": ":AER?"
}
],
"see_also": null
} | true | null | false |
:OPERegister[:EVENt]? | {
"name": ":OPERegister[:EVENt]?",
"syntax": ":OPERegister[:EVENt]?",
"query_syntax": ":OPERegister[:EVENt]?",
"parameters": [],
"description": "The :OPERegister[:EVENt]? query returns the integer value contained in the Operation Status Event Register.",
"return_format": "<value><NL>\n<value> ::= integer in NR1 format.",
"return_format_values": null,
"examples": [
{
"description": "Query the Operation Status Event Register",
"code": ":OPERegister[:EVENt]?"
}
],
"see_also": null
} | true | null | false |
:ABUS:LABel | {
"name": ":ABUS:LABel",
"syntax": ":ABUS:LABel <quoted_string>",
"query_syntax": ":ABUS:LABel?",
"parameters": [
{
"name": "<quoted_string>",
"type": "string",
"enum": null,
"minimum": null,
"maximum": null,
"default": "",
"description": "Any series of 10 or less characters as a quoted ASCII string. The :ABUS:LABel command sets the bus label to the quoted string. Setting a label for a bus will also result in the name being added to the label list.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :ABUS:LABel command sets the bus label to the quoted string. Setting a label for a bus will also result in the name being added to the label list.",
"return_format": "<quoted_string><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set the analog channel bus label to \"DATA\"",
"code": "myScope.WriteString \":ABUS:LABel 'Data'\""
}
],
"see_also": null
} | true | null | false |
:OVLenable | {
"name": ":OVLenable",
"syntax": ":OVLenable <enable_mask>",
"query_syntax": ":OVLenable?",
"parameters": [
{
"name": "<enable_mask>",
"type": "integer",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "The overload enable mask is an integer representing an input as described in the following table. The :OVLenable command sets the mask in the Overload Event Enable Register and enables the reporting of the Overload Event Register. If enabled, such an event will set bit 11 in the Operation Status Register.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "Sets the mask in the Overload Event Enable Register and enables the reporting of the Overload Event Register.",
"return_format": "<enable_mask><NL> <enable_mask> ::= integer in NR1 format.",
"return_format_values": null,
"examples": [
{
"description": "Query the current enable mask value contained in the Overload Event Enable Register",
"code": ":OVLenable?"
}
],
"see_also": null
} | true | null | false |
:TER? | {
"name": ":TER?",
"syntax": ":TER?",
"query_syntax": ":TER?",
"parameters": [],
"description": "The :TER? query reads the Trigger Event Register. After the Trigger Event Register is read, it is cleared. A one indicates a trigger has occurred. A zero indicates a trigger has not occurred. The Trigger Event Register is summarized in the TRG bit of the Status Byte Register (STB). A Service Request (SRQ) can be generated when the TRG bit of the Status Byte transitions, and the TRG bit is set in the Service Request Enable register. The Trigger Event Register must be cleared each time you want a new service request to be generated.",
"return_format": "<value><NL> <value> ::= {1 | 0}; a 16-bit integer in NR1 format.",
"return_format_values": null,
"examples": [
{
"description": "Read the Trigger Event Register",
"code": ":TER?"
}
],
"see_also": null
} | true | null | false |
:SINGle | {
"name": ":SINGle",
"syntax": ":SINGle",
"query_syntax": "",
"parameters": [],
"description": "The :SINGle command causes the instrument to acquire a single trigger of data. This is the same as pressing the Single key on the front panel.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Acquire a single trigger of data",
"code": ":SINGle"
}
],
"see_also": null
} | true | null | false |
:RUN | {
"name": ":RUN",
"syntax": ":RUN",
"query_syntax": "",
"parameters": [],
"description": "Starts repetitive acquisitions on the oscilloscope.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Start repetitive acquisitions",
"code": ":RUN"
}
],
"see_also": null
} | false | Duplicate entry skipped | true |
:STOP | {
"name": ":STOP",
"syntax": ":STOP",
"query_syntax": "",
"parameters": [],
"description": "Stops repetitive acquisitions on the oscilloscope.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Stop repetitive acquisitions",
"code": ":STOP"
}
],
"see_also": null
} | false | Duplicate entry skipped | true |
:ABUS:BIT<m> | {
"name": ":ABUS:BIT<m>",
"syntax": ":ABUS:BIT<m> <display>",
"query_syntax": ":ABUS:BIT<m>?",
"parameters": [
{
"name": "<m>",
"type": "integer",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "An integer is attached as a suffix to BIT and defines the analog channel that is affected by the command.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<display>",
"type": "string",
"enum": [
"1",
"ON",
"0",
"OFF"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "If the parameter is a 1 (ON), the bit is included in the definition. If the parameter is a 0 (OFF), the bit is excluded from the definition.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :ABUS:BIT<m> command includes or excludes the selected bit as part of the definition for the selected bus.",
"return_format": "<display><NL>\n<display> ::= {0 | 1}",
"return_format_values": null,
"examples": [
{
"description": "Include analog channel 2 in the bus",
"code": ":ABUS:BIT1 ON"
}
],
"see_also": null
} | true | null | false |
:STATus? | {
"name": ":STATus?",
"syntax": ":STATus? <source>",
"query_syntax": ":STATus? <source>",
"parameters": [
{
"name": "<source>",
"type": "enum",
"enum": [
"CHANnel<n>",
"FUNCtion",
"MATH",
"SBUS{1}",
"FFT",
"WMEMory<r>",
"ABUS",
"EXT"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "The channel, function, or serial decode bus to report the display status of",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "Reports whether the channel, function, or serial decode bus specified by <source> is displayed.",
"return_format": "<value><NL>",
"return_format_values": null,
"examples": [
{
"description": "Query the display status of channel 1",
"code": ":STATus? CHANnel1"
}
],
"see_also": null
} | true | null | false |
:MTEenable | {
"name": ":MTEenable",
"syntax": ":MTEenable <mask>",
"query_syntax": ":MTEenable?",
"parameters": [
{
"name": "<mask>",
"type": "integer",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "16-bit integer representing the mask to set in the Mask Test Event Enable register",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :MTEenable command sets a mask in the Mask Test Event Enable register. Set any of the following bits to \"1\" to enable bit 9 in the Operation Status Condition Register and potentially cause an SRQ (Service Request interrupt to be generated.",
"return_format": "<value><NL>\n<value> ::= integer in NR1 format.",
"return_format_values": null,
"examples": [
{
"description": "Set the mask in the Mask Test Event Enable register",
"code": ":MTEenable <mask>"
},
{
"description": "Query the current value of the Mask Test Event Enable register",
"code": ":MTEenable?"
}
],
"see_also": null
} | true | null | false |
:AUToscale | {
"name": ":AUToscale",
"syntax": ":AUToscale [<source>[,..,<source>]]",
"query_syntax": "",
"parameters": [
{
"name": "<source>",
"type": "string",
"enum": [
"CHANnel<n>"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "The <source> parameter may be repeated up to 5 times.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<n>",
"type": "integer",
"enum": null,
"minimum": 1,
"maximum": "5",
"default": null,
"description": "Channel number in NR1 format",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :AUToscale command evaluates all input signals and sets the correct conditions to display the signals. This is the same as pressing the [Auto Scale] key on the front panel. If one or more sources are specified, those specified sources will be enabled and all others blanked. The autoscale channels mode (see \":AUToscale:CHANnels\" on page 150) is set to DISPlayed channels. Then, the autoscale is performed.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Start repetitive acquisitions",
"code": ":AUToscale"
}
],
"see_also": null
} | true | null | false |
:ACQuire:COUNt | {
"name": ":ACQuire:COUNt",
"syntax": ":ACQuire:COUNt <count>",
"query_syntax": ":ACQuire:COUNT?",
"parameters": [
{
"name": "count",
"type": "integer",
"enum": null,
"minimum": 2,
"maximum": "65536",
"default": null,
"description": "The number of values to be averaged for each time bucket before the acquisition is considered to be complete for that time bucket.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "In averaging mode, the :ACQuire:COUNt command specifies the number of values to be averaged for each time bucket before the acquisition is considered to be complete for that time bucket. When :ACQuire:TYPE is set to AVERage, the count can be set to any value from 2 to 65536.",
"return_format": "<count_argument><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set the number of values to be averaged to 10",
"code": ":ACQuire:COUNt 10"
}
],
"see_also": null
} | true | null | false |
:ACQuire:SRATe? | {
"name": ":ACQuire:SRATe?",
"syntax": ":ACQuire:SRATe?",
"query_syntax": ":ACQuire:SRATe?",
"parameters": [],
"description": "The :ACQuire:SRATe? query returns the current oscilloscope acquisition sample rate. The sample rate is not directly controllable.",
"return_format": "<sample_rate><NL> <sample_rate> ::= sample rate in NR3 format",
"return_format_values": null,
"examples": [
{
"description": "Query the current acquisition sample rate",
"code": ":ACQuire:SRATe?"
}
],
"see_also": null
} | true | null | false |
:ABUS:DISPlay | {
"name": ":ABUS:DISPlay",
"syntax": ":ABUS:DISPlay <value>",
"query_syntax": ":ABUS:DISPlay?",
"parameters": [
{
"name": "value",
"type": "enum",
"enum": [
"1",
"ON",
"0",
"OFF"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Enables or disables the view of the selected bus",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :ABUS:DISPlay command enables or disables the view of the selected bus.",
"return_format": "<value><NL>\n<value> ::= {0 | 1}",
"return_format_values": null,
"examples": [
{
"description": "Enable the view of the selected bus",
"code": ":ABUS:DISPlay 1"
},
{
"description": "Disable the view of the selected bus",
"code": ":ABUS:DISPlay 0"
}
],
"see_also": null
} | true | null | false |
:ACQuire:COMPlete | {
"name": ":ACQuire:COMPlete",
"syntax": ":ACQuire:COMPlete <complete>",
"query_syntax": ":ACQuire:COMPlete?",
"parameters": [
{
"name": "<complete>",
"type": "integer",
"enum": [
"100"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "The percentage of the time buckets that must be \"full\" before an acquisition is considered complete. The only legal value is 100, meaning all time buckets must contain data for the acquisition to be considered complete.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :ACQuire:COMPlete command affects the operation of the :DIGitize command. It specifies the minimum completion criteria for an acquisition.",
"return_format": "<completion_criteria><NL> <completion_criteria> ::= 100; an integer in NR1 format",
"return_format_values": null,
"examples": [
{
"description": "Specifies the minimum completion criteria for an acquisition",
"code": "myScope.WriteString \":ACQuire:COMPlete 100\""
}
],
"see_also": null
} | true | null | false |
:CALibrate:STARt | {
"name": ":CALibrate:STARt",
"syntax": ":CALibrate:STARt",
"query_syntax": "",
"parameters": [],
"description": "The CALibrate:STARt command starts the user calibration procedure.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Start the user calibration procedure",
"code": ":CALibrate:STARt"
}
],
"see_also": null
} | true | null | false |
:CALibrate:DATE? | {
"name": ":CALibrate:DATE?",
"syntax": ":CALibrate:DATE?",
"query_syntax": ":CALibrate:DATE?",
"parameters": [],
"description": "The :CALibrate:DATE? query returns the date of the last calibration.",
"return_format": "<date><NL> <date> ::= year,month,day in NR1 format<NL>",
"return_format_values": null,
"examples": [
{
"description": "Query the date of the last calibration",
"code": ":CALibrate:DATE?"
}
],
"see_also": null
} | true | null | false |
:CALibrate:TEMPerature? | {
"name": ":CALibrate:TEMPerature?",
"syntax": ":CALibrate:TEMPerature?",
"query_syntax": ":CALibrate:TEMPerature?",
"parameters": [],
"description": "The :CALibrate:TEMPerature? query returns the change in temperature since the last user calibration procedure.",
"return_format": "<return value><NL> <return value> ::= degrees C delta since last cal in NR3 format",
"return_format_values": null,
"examples": [],
"see_also": null
} | true | null | false |
:AUToscale:CHANnels | {
"name": ":AUToscale:CHANnels",
"syntax": ":AUToscale:CHANnels <value>",
"query_syntax": ":AUToscale:CHANnels?",
"parameters": [
{
"name": "<value>",
"type": "string",
"enum": [
"ALL",
"DISPlayed"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Specifies which channels will be displayed on subsequent :AUToscales. ALL displays all channels that meet the requirements of :AUToscale, DISP displays only the channels that are turned on.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :AUTOscale:CHANnels command specifies which channels will be displayed on subsequent :AUToscales.",
"return_format": "<value><NL> where <value> is {ALL | DISP}",
"return_format_values": null,
"examples": [
{
"description": "Set the autoscale channels to ALL",
"code": ":AUToscale:CHANnels ALL"
},
{
"description": "Set the autoscale channels to DISP",
"code": ":AUToscale:CHANnels DISP"
},
{
"description": "Query the autoscale channels setting",
"code": ":AUToscale:CHANnels?"
}
],
"see_also": null
} | true | null | false |
:RUN | {
"name": ":RUN",
"syntax": ":RUN",
"query_syntax": "",
"parameters": [],
"description": "Starts repetitive acquisitions on the oscilloscope.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Start repetitive acquisitions",
"code": ":RUN"
}
],
"see_also": null
} | false | Duplicate entry skipped | true |
:DIGitize | {
"name": ":DIGitize",
"syntax": ":DIGitize [<source>[,..,<source>]]",
"query_syntax": "",
"parameters": [
{
"name": "<source>",
"type": "string",
"enum": [
"CHANnel<n>",
"FUNCtion",
"MATH",
"SBUS{1}",
"FFT",
"ABUS",
"EXT"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "The source to be digitized. MATH is an alias for FUNCtion. The EXT source is available on 2-channel oscilloscopes only. The <source> parameter may be repeated up to 5 times.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<n>",
"type": "integer",
"enum": null,
"minimum": 1,
"maximum": "1",
"default": null,
"description": "The channel number in NR1 format.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :DIGitize command is a specialized RUN command. It causes the instrument to acquire waveforms according to the settings of the :ACQuire commands subsystem. When the acquisition is complete, the instrument is stopped. If no argument is given, :DIGitize acquires the channels currently displayed. If no channels are displayed, all channels are acquired. The :DIGitize command is only executed when the :TIMebase:MODE is MAIN or WINDow. To halt a :DIGitize in progress, use the device clear command.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Capture an acquisition using :DIGitize.",
"code": "myScope.WriteString \":DIGitize CHANnel1\""
}
],
"see_also": null
} | true | null | false |
:CALibrate:PROTected? | {
"name": ":CALibrate:PROTected?",
"syntax": ":CALibrate:PROTected?",
"query_syntax": ":CALibrate:PROTected?",
"parameters": [],
"description": "The :CALibrate:PROTected? query returns the rear-panel calibration protect (CAL PROTECT) button state. The value \"PROTected\" indicates calibration is disabled, and \"UNPRotected\" indicates calibration is enabled.",
"return_format": "<switch><NL> <switch> ::= {\"PROTected\" | \"UNPRotected\"}",
"return_format_values": null,
"examples": [
{
"description": "Query the calibration protect button state",
"code": ":CALibrate:PROTected?"
}
],
"see_also": null
} | true | null | false |
:ACQuire:MODE | {
"name": ":ACQuire:MODE",
"syntax": ":ACQuire:MODE <mode>",
"query_syntax": ":ACQuire:MODE?",
"parameters": [
{
"name": "mode",
"type": "enum",
"enum": [
"RTIMe",
"SEGMented"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "The acquisition mode of the oscilloscope",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :ACQuire:MODE command sets the acquisition mode of the oscilloscope. The :ACQuire:MODE RTIMe command sets the oscilloscope in real time mode. The :ACQuire:MODE SEGMented command sets the oscilloscope in segmented memory mode. Segmented memory is available on the DSOX1200-Series oscilloscope models.",
"return_format": "<mode_argument><NL> <mode_argument> ::= {RTIM | SEGM}",
"return_format_values": null,
"examples": [
{
"description": "Set the acquisition mode to real time",
"code": ":ACQuire:MODE RTIMe"
},
{
"description": "Set the acquisition mode to segmented",
"code": ":ACQuire:MODE SEGMented"
},
{
"description": "Query the current acquisition mode",
"code": ":ACQuire:MODE?"
}
],
"see_also": null
} | true | null | false |
:ACQuire:SEGMented:COUNt | {
"name": ":ACQuire:SEGMented:COUNt",
"syntax": ":ACQuire:SEGMented:COUNt <count>",
"query_syntax": ":ACQuire:SEGMented:COUNt?",
"parameters": [
{
"name": "count",
"type": "integer",
"enum": null,
"minimum": 2,
"maximum": "500",
"default": null,
"description": "The number of memory segments to acquire",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "Sets the number of memory segments to acquire. Segmented memory acquisition mode must be enabled using the :ACQuire:MODE command.",
"return_format": "<count><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set the number of memory segments to acquire to 50",
"code": ":ACQuire:SEGMented:COUNt 50"
}
],
"see_also": null
} | true | null | false |
:RUN | {
"name": ":RUN",
"syntax": ":RUN",
"query_syntax": "",
"parameters": [],
"description": "Starts repetitive acquisitions on the oscilloscope.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Start repetitive acquisitions",
"code": ":RUN"
}
],
"see_also": null
} | false | Duplicate entry skipped | true |
:ACQuire:POINts? | {
"name": ":ACQuire:POINts?",
"syntax": ":ACQuire:POINts?",
"query_syntax": ":ACQuire:POINts?",
"parameters": [],
"description": "The :ACQuire:POINts? query returns the number of data points that the hardware will acquire from the input signal. The number of points acquired is not directly controllable. To set the number of points to be transferred from the oscilloscope, use the command :WAVeform:POINts. The :WAVeform:POINts? query will return the number of points available to be transferred from the oscilloscope.",
"return_format": "<points_argument><NL> <points_argument> ::= an integer in NR1 format",
"return_format_values": null,
"examples": [
{
"description": "Query the number of data points acquired",
"code": ":ACQuire:POINts?"
}
],
"see_also": null
} | true | null | false |
:WAVeform:POINts | {
"name": ":WAVeform:POINts",
"syntax": ":WAVeform:POINts <points_argument>",
"query_syntax": ":WAVeform:POINts?",
"parameters": [
{
"name": "<points_argument>",
"type": "integer",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Specifies the number of points to be transferred from the oscilloscope",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "To set the number of points to be transferred from the oscilloscope, use the command :WAVeform:POINts. The :WAVeform:POINts? query will return the number of points available to be transferred from the oscilloscope.",
"return_format": "<points_argument><NL> <points_argument> ::= an integer in NR1 format",
"return_format_values": null,
"examples": [
{
"description": "Set the number of points to be transferred",
"code": ":WAVeform:POINts 10000"
},
{
"description": "Query the number of points available to be transferred",
"code": ":WAVeform:POINts?"
}
],
"see_also": null
} | true | null | false |
:CALibrate:STATus? | {
"name": ":CALibrate:STATus?",
"syntax": ":CALibrate:STATus?",
"query_syntax": ":CALibrate:STATus?",
"parameters": [],
"description": "The :CALibrate:STATus? query returns the summary results of the last user calibration procedure.",
"return_format": "<return value><NL> <return value> ::= <status_code>,<status_string> <status_code> ::= an integer status code <status_string> ::= an ASCII status string",
"return_format_values": null,
"examples": [
{
"description": "Query the calibration status",
"code": ":CALibrate:STATus?"
}
],
"see_also": null
} | true | null | false |
:OPEE | {
"name": ":OPEE",
"syntax": ":OPEE <mask>",
"query_syntax": ":OPEE?",
"parameters": [
{
"name": "<mask>",
"type": "integer",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "15-bit integer value to set the Operation Status Enable register",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :OPEE command sets a mask in the Operation Status Enable register. Set any of the bits to \"1\" to enable bit 7 in the Status Byte Register and potentially cause an SRQ (Service Request interrupt to be generated.",
"return_format": "<value><NL>\n<value> ::= integer in NR1 format.",
"return_format_values": null,
"examples": [
{
"description": "Set the Operation Status Enable register mask",
"code": ":OPEE <mask>"
},
{
"description": "Read the current Operation Status Enable register value",
"code": ":OPEE?"
}
],
"see_also": null
} | true | null | false |
:CALibrate:OUTPut | {
"name": ":CALibrate:OUTPut",
"syntax": ":CALibrate:OUTPut <signal>",
"query_syntax": ":CALibrate:OUTPut?",
"parameters": [
{
"name": "<signal>",
"type": "enum",
"enum": [
"TRIGgers",
"MASK",
"OFF"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Sets the signal that is available on the Gen Out BNC: TRIGgers - pulse when a trigger event occurs, MASK - signal from mask test indicating a failure, OFF - either no signal or the waveform generator output signal when :WGEN:OUTPut is ON",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "For oscilloscopes that have a built-in waveform generator (G-suffix models), the :CALibrate:OUTPut command sets the signal that is available on the Gen Out BNC.",
"return_format": "<signal><NL> <signal> ::= {TRIG | MASK | OFF}",
"return_format_values": null,
"examples": [
{
"description": "Set the Gen Out BNC signal to Triggers",
"code": ":CALibrate:OUTPut TRIGgers"
}
],
"see_also": null
} | true | null | false |
:AUToscale:AMODE | {
"name": ":AUToscale:AMODE",
"syntax": ":AUToscale:AMODE <value>",
"query_syntax": ":AUToscale:AMODE?",
"parameters": [
{
"name": "<value>",
"type": "string",
"enum": [
"NORMal",
"CURRent"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Specifies the acquisition mode that is set by subsequent :AUToscales.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :AUTOscale:AMODE command specifies the acquisition mode that is set by subsequent :AUToscales. When NORMal is selected, an :AUToscale command sets the NORMal acquisition type and the RTIMe (real-time) acquisition mode. When CURRent is selected, the current acquisition type and mode are kept on subsequent :AUToscales.",
"return_format": "<value><NL> <value> ::= {NORM | CURR}",
"return_format_values": null,
"examples": [
{
"description": "Set the autoscale acquire mode to Normal",
"code": ":AUToscale:AMODE NORMAL"
}
],
"see_also": null
} | true | null | false |
:CALibrate:LABel | {
"name": ":CALibrate:LABel",
"syntax": ":CALibrate:LABel <string> <string>",
"query_syntax": ":CALibrate:LABel?",
"parameters": [
{
"name": "<string>",
"type": "string",
"enum": null,
"minimum": null,
"maximum": null,
"default": "",
"description": "Quoted ASCII string of up to 32 characters in length, not including the quotes",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The CALibrate:LABel command saves a string that is up to 32 characters in length into the instrument's non-volatile memory. The string may be used to record calibration dates or other information as needed.",
"return_format": "<string><NL>\n<string>::= unquoted ASCII string of up to 32 characters in length",
"return_format_values": null,
"examples": [
{
"description": "Save a calibration label",
"code": ":CALibrate:LABel \"Calibrated on 2023-04-01\""
},
{
"description": "Read the calibration label",
"code": ":CALibrate:LABel?"
}
],
"see_also": null
} | true | null | false |
:Channel<N>:Probe:Id | null | false | Failed to decode JSON | false |
:AUToscale:FDEBug | {
"name": ":AUToscale:FDEBug",
"syntax": ":AUToscale:FDEBug <on_off>",
"query_syntax": ":AUToscale:FDEBug?",
"parameters": [
{
"name": "<on_off>",
"type": "enum",
"enum": [
"1",
"ON",
"0",
"OFF"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Turns fast debug auto scaling on or off",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :AUToscale:FDEBug command turns fast debug auto scaling on or off. The Fast Debug option changes the behavior of :AUToscale to let you make quick visual comparisons to determine whether the signal being probed is a DC voltage, ground, or an active AC signal. Channel coupling is maintained for easy viewing of oscillating signals.",
"return_format": "<on_off><NL>",
"return_format_values": null,
"examples": [
{
"description": "Turn on fast debug auto scaling",
"code": ":AUToscale:FDEBug ON"
}
],
"see_also": null
} | true | null | false |
:BLANk | {
"name": ":BLANk",
"syntax": ":BLANk [<source>]",
"query_syntax": null,
"parameters": [
{
"name": "<source>",
"type": "enum",
"enum": [
"CHANnel<n>",
"FUNCtion",
"MATH",
"SBUS{1}",
"FFT",
"WMEMory<r>",
"ABUS",
"EXT"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Specifies the source to turn off (stop displaying)",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<n>",
"type": "integer",
"enum": null,
"minimum": 1,
"maximum": "4",
"default": null,
"description": "Channel number when <source> is CHANnel<n>",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<r>",
"type": "integer",
"enum": null,
"minimum": 1,
"maximum": "4",
"default": null,
"description": "Reference waveform number when <source> is WMEMory<r>",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :BLANk command turns off (stops displaying) the specified channel, math function, or serial decode bus. The :BLANk command with no parameter turns off all sources.",
"return_format": null,
"return_format_values": null,
"examples": [
{
"description": "Turn off all sources",
"code": ":BLANk"
},
{
"description": "Turn off channel 1",
"code": ":BLANk CHANnel1"
}
],
"see_also": null
} | false | {"'return_format' is a required property",[],"required",["name", "syntax", … "return_format"],{":BLANk",":BLANk [<source>]",[{"<source>","enum",null,null,"Specifies the source to turn off (stop displaying)",["CHANnel<n>", "FUNCtion", … "EXT"]}, {"<n>","integer",1,4,"Channel number when <source> is CHANnel<n>",null}, {"<r>","integer",1,4,"Reference waveform number when <source> is WMEMory<r>",null}],"The :BLANk command turns off (stops displaying) the specified channel, math function, or serial decode bus. The :BLANk command with no parameter turns off all sources.",[{"Turn off all sources",":BLANk"}, {"Turn off channel 1",":BLANk CHANnel1"}]},{"http://json-schema.org/draft-07/schema#","SCPI Command","object",{{"string","The SCPI command"},{"string","Command syntax"},{"string","Query syntax"},{"array",{"object",{{"string","Parameter name"},{"string","Data type of the parameter"},{"array",{"string"},"Enumeration of possible values"},{"integer","Minimum value for numerical parameters"},{"integer","Maximum value for numerical parameters"},{"string","Default value if parameter is not specified"},{"string","Description of the parameter"}}}},{"string","Description of the command"},{"string","Format of the returned data"},{"array",{"object",{{"string","Example description"},{"string","Example code"}}}}},["name", "syntax", … "return_format"]}} | false |
:CHANnel<n>:BWLimit | {
"name": ":CHANnel<n>:BWLimit",
"syntax": ":CHANnel<n>:BWLimit <bwlimit>",
"query_syntax": ":CHANnel<n>:BWLimit?",
"parameters": [
{
"name": "<bwlimit>",
"type": "string",
"enum": [
"1",
"ON",
"0",
"OFF"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Controls an internal low-pass filter. When the filter is on, the bandwidth of the specified channel is limited to approximately 25 MHz.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<n>",
"type": "integer",
"enum": null,
"minimum": 1,
"maximum": "1",
"default": null,
"description": "Specifies the analog channel number",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :CHANnel<n>:BWLimit command controls an internal low-pass filter. When the filter is on, the bandwidth of the specified channel is limited to approximately 25 MHz.",
"return_format": "<bwlimit><NL> where <bwlimit> is {1 | 0}",
"return_format_values": null,
"examples": [
{
"description": "Query the current setting of the low-pass filter",
"code": ":CHANnel<n>:BWLimit?"
}
],
"see_also": null
} | true | null | false |
:CHANnel<n>:DISPlay | {
"name": ":CHANnel<n>:DISPlay",
"syntax": ":CHANnel<n>:DISPlay <display value>",
"query_syntax": ":CHANnel<n>:DISPlay?",
"parameters": [
{
"name": "<n>",
"type": "number",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Channel number from 1 to (# analog channels) in NR1 format",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<display value>",
"type": "string",
"enum": [
"1",
"ON",
"0",
"OFF"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Turns the display of the specified channel on or off",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :CHANnel<n>:DISPlay command turns the display of the specified channel on or off.",
"return_format": "<display value><NL> where <display value> is {1 | 0}",
"return_format_values": null,
"examples": [
{
"description": "Turn channel 1 display on",
"code": ":CHANnel1:DISPlay 1"
},
{
"description": "Turn channel 1 display off",
"code": ":CHANnel1:DISPlay 0"
}
],
"see_also": null
} | true | null | false |
:CHANnel<n>:PROBe:HEAD[:TYPE] | {
"name": ":CHANnel<n>:PROBe:HEAD[:TYPE]",
"syntax": ":CHANnel<n>:PROBe:HEAD[:TYPE] <head_param>",
"query_syntax": ":CHANnel<n>:PROBe:HEAD[:TYPE]?",
"parameters": [
{
"name": "<n>",
"type": "integer",
"enum": [
"1",
"2",
"3",
"4"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Channel number",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<head_param>",
"type": "string",
"enum": [
"SEND0",
"SEND6",
"SEND12",
"SEND20",
"DIFF0",
"DIFF6",
"DIFF12",
"DIFF20",
"NONE"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Probe head type and dB value",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "Sets an analog channel probe head type and dB value.",
"return_format": "<head_param><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set the probe head type to Single-ended, 6dB",
"code": ":CHAN1:PROB:HEAD SEND6"
}
],
"see_also": null
} | false | {"4 is not of type 'string'",["parameters", "0", … "3"],"type","string",4,{"string"}} | false |
:CHANnel<n>:LABel | {
"name": ":CHANnel<n>:LABel",
"syntax": ":CHANnel<n>:LABel <string>",
"query_syntax": ":CHANnel<n>:LABel?",
"parameters": [
{
"name": "<n>",
"type": "integer",
"enum": null,
"minimum": 1,
"maximum": "# analog channels",
"default": null,
"description": "Channel number",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<string>",
"type": "string",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Quoted ASCII string up to 10 characters",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "Sets the analog channel label to the specified string. Setting a label for a channel also adds the name to the label list in non-volatile memory (replacing the oldest label in the list).",
"return_format": "<string><NL>",
"return_format_values": null,
"examples": [
{
"description": "Label channel 1 as \"CAL 1\"",
"code": ":CHANnel1:LABel \"CAL 1\""
},
{
"description": "Label channel 2 as \"CAL2\"",
"code": ":CHANnel2:LABel \"CAL2\""
}
],
"see_also": null
} | false | {"'# analog channels' is not of type 'integer'",["parameters", "0", "maximum"],"type","integer","# analog channels",{"integer","Maximum value for numerical parameters"}} | false |
:CHANnel<n>:COUPling | {
"name": ":CHANnel<n>:COUPling",
"syntax": ":CHANnel<n>:COUPling <coupling>",
"query_syntax": ":CHANnel<n>:COUPling?",
"parameters": [
{
"name": "<coupling>",
"type": "string",
"enum": [
"AC",
"DC"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "The input coupling for the specified channel",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<n>",
"type": "integer",
"enum": null,
"minimum": 1,
"maximum": "# analog channels",
"default": null,
"description": "The channel number in NR1 format",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :CHANnel<n>:COUPling command selects the input coupling for the specified channel. The coupling for each analog channel can be set to AC or DC.",
"return_format": "<coupling value><NL>\n<coupling value> ::= {AC | DC}",
"return_format_values": null,
"examples": [
{
"description": "Set the coupling for channel 1 to AC",
"code": ":CHANnel1:COUPling AC"
},
{
"description": "Query the coupling for channel 1",
"code": ":CHANnel1:COUPling?"
}
],
"see_also": null
} | false | {"'# analog channels' is not of type 'integer'",["parameters", "1", "maximum"],"type","integer","# analog channels",{"integer","Maximum value for numerical parameters"}} | false |
:CHANnel<n>:PROTection[:CLEar] | {
"name": ":CHANnel<n>:PROTection[:CLEar]",
"syntax": ":CHANnel<n>:PROTection[:CLEar]",
"query_syntax": ":CHANnel<n>:PROTection?",
"parameters": [
{
"name": "<n>",
"type": "NR1",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Channel number from 1 to the number of analog channels",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "With the InfiniiVision 1200 X-Series and EDUX11052A/G oscilloscopes, the analog channel input impedance is always 1 MΩ, so automatic overvoltage protection is not necessary (as it is for channels with 50Ω input impedance). There are no protection settings to clear, so the :CHANnel<n>:PROTection[:CLEar] command does nothing.",
"return_format": "NORM<NL>",
"return_format_values": null,
"examples": [
{
"description": "Query the channel protection status",
"code": ":CHANnel<n>:PROTection?"
}
],
"see_also": null
} | true | null | false |
:ACQuire:SEGMented:INDex | {
"name": ":ACQuire:SEGMented:INDex",
"syntax": ":ACQuire:SEGMented:INDex <index>",
"query_syntax": ":ACQuire:SEGMented:INDex?",
"parameters": [
{
"name": "<index>",
"type": "integer",
"enum": null,
"minimum": 1,
"maximum": "500",
"default": null,
"description": "An integer from 1 to 500 in NR1 format",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "Sets the index into the memory segments that have been acquired. The segmented memory acquisition mode is enabled with the :ACQuire:MODE command. The number of segments to acquire is set using the :ACQuire:SEGMented:COUNt command, and data is acquired using the :DIGitize, :SINGle, or :RUN commands. The number of memory segments that have been acquired is returned by the :WAVeform:SEGMented:COUNt? query. The time tag of the currently indexed memory segment is returned by the :WAVeform:SEGMented:TTAG? query.",
"return_format": "<index><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set the segmented memory index",
"code": ":ACQuire:SEGMented:INDex <index>"
},
{
"description": "Query the current segmented memory index",
"code": ":ACQuire:SEGMented:INDex?"
}
],
"see_also": null
} | true | null | false |
:RUN | {
"name": ":RUN",
"syntax": ":RUN",
"query_syntax": "",
"parameters": [],
"description": "Starts repetitive acquisitions on the oscilloscope.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Start repetitive acquisitions",
"code": ":RUN"
}
],
"see_also": null
} | false | Duplicate entry skipped | true |
:DISPlay:CLEar | {
"name": ":DISPlay:CLEar",
"syntax": ":DISPlay:CLEar",
"query_syntax": "",
"parameters": [],
"description": "The :DISPlay:CLEar command clears the display and resets all associated measurements. If the oscilloscope is stopped, all currently displayed data is erased. If the oscilloscope is running, all of the data for active channels and functions is erased; however, new data is displayed on the next acquisition.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Clear the display",
"code": ":DISPlay:CLEar"
}
],
"see_also": null
} | true | null | false |
:DISPlay:ANNotation:TEXT | {
"name": ":DISPlay:ANNotation:TEXT",
"syntax": ":DISPlay:ANNotation:TEXT <string>",
"query_syntax": ":DISPlay:ANNotation:TEXT?",
"parameters": [
{
"name": "<string>",
"type": "quoted ASCII string",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "The annotation string can contain as many characters as will fit in the Edit Annotation box on the oscilloscope's screen, up to 254 characters. You can include a carriage return in the annotation string using the characters \"\\n\". Use :DISPlay:ANNotation:TEXT \"\" to remotely clear the annotation text.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :DISPlay:ANNotation:TEXT command specifies the annotation string.",
"return_format": "<string><NL>\n<string> ::= quoted ASCII string",
"return_format_values": null,
"examples": null,
"see_also": null
} | true | null | false |
:CHANnel<n>:PROBe | {
"name": ":CHANnel<n>:PROBe",
"syntax": ":CHANnel<n>:PROBe <attenuation>",
"query_syntax": ":CHANnel<n>:PROBe?",
"parameters": [
{
"name": "<attenuation>",
"type": "NR3",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Probe attenuation ratio",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<n>",
"type": "NR1",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Channel number, 1 to (# analog channels)",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :CHANnel<n>:PROBe command specifies the probe attenuation factor for the selected channel. The probe attenuation factor may be 0.1 to 10000. This command does not change the actual input sensitivity of the oscilloscope. It changes the reference constants for scaling the display factors, for making automatic measurements, and for setting trigger levels.",
"return_format": "<attenuation><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set Probe to 10:1",
"code": "myScope.WriteString \":CHANnel1:PROBe 10\""
}
],
"see_also": null
} | true | null | false |
:ABUS:BITS | {
"name": ":ABUS:BITS",
"syntax": ":ABUS:BITS <channel_list>, <display>",
"query_syntax": ":ABUS:BITS?",
"parameters": [
{
"name": "<channel_list>",
"type": "string",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "A list of channels to include or exclude from the analog bus definition. The format is (@<m>,<m>:<m>, ...) where commas separate bits and colons define bit ranges. <m> is an integer that defines the channel affected by the command.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<display>",
"type": "string",
"enum": [
"1",
"ON",
"0",
"OFF"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Specifies whether the selected bits in the channel list are included (1 or ON) or excluded (0 or OFF) from the definition of the analog bus.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :ABUS:BITS command includes or excludes the selected bits in the channel list in the definition of the analog bus. If the parameter is a 1 (ON), then the bits in the channel list are included as part of the analog bus definition. If the parameter is a 0 (OFF), then the bits in the channel list are excluded from the definition of the analog bus. The threshold voltage level for each channel is set using the trigger-level commands of the source.",
"return_format": "<channel_list>, <display>",
"return_format_values": null,
"examples": [
{
"description": "Include the first and third channel in the bus",
"code": ":ABUS:BITS (@0,2), ON"
},
{
"description": "Include the first three channels in the bus",
"code": ":ABUS:BITS (@0:2), ON"
}
],
"see_also": null
} | true | null | false |
:ABUS:BITS? | {
"name": ":ABUS:BITS?",
"syntax": ":ABUS:BITS?",
"query_syntax": "",
"parameters": [],
"description": "The :ABUS:BITS? query returns the definition for the specified bus.",
"return_format": "<channel_list>, <display>",
"return_format_values": null,
"examples": [],
"see_also": null
} | true | null | false |
:CHANnel<n>:UNITs | {
"name": ":CHANnel<n>:UNITs",
"syntax": ":CHANnel<n>:UNITs <units>",
"query_syntax": ":CHANnel<n>:UNITs?",
"parameters": [
{
"name": "<n>",
"type": "NR1",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Channel number from 1 to the number of analog channels",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<units>",
"type": "string",
"enum": [
"VOLT",
"AMPere"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Measurement units for the connected probe",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :CHANnel<n>:UNITs command sets the measurement units for the connected probe. Select VOLT for a voltage probe and select AMPere for a current probe. Measurement results, channel sensitivity, and trigger level will reflect the measurement units you select.",
"return_format": "<units><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set the measurement units for channel 1 to volts",
"code": ":CHANnel1:UNITs VOLT"
}
],
"see_also": null
} | true | null | false |
:CHANnel<n>:PROBe:STYPe | {
"name": ":CHANnel<n>:PROBe:STYPe",
"syntax": ":CHANnel<n>:PROBe:STYPe <signal type>",
"query_syntax": ":CHANnel<n>:PROBe:STYPe?",
"parameters": [
{
"name": "<n>",
"type": "integer",
"enum": null,
"minimum": 1,
"maximum": "(# analog channels)",
"default": null,
"description": "Channel number",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<signal type>",
"type": "string",
"enum": [
"DIFFerential",
"SINGle"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Probe signal type",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :CHANnel<n>:PROBe:STYPe command sets the channel probe signal type (STYPe) to differential or single-ended when using the 113xA Series probes and determines how offset is applied.",
"return_format": "<signal type><NL>\n<signal type> ::= {DIFF | SING}",
"return_format_values": null,
"examples": [
{
"description": "Set the probe signal type to differential",
"code": ":CHANnel1:PROBe:STYPe DIFFerential"
},
{
"description": "Set the probe signal type to single-ended",
"code": ":CHANnel1:PROBe:STYPe SINGle"
},
{
"description": "Query the current probe signal type",
"code": ":CHANnel1:PROBe:STYPe?"
}
],
"see_also": null
} | false | {"'(# analog channels)' is not of type 'integer'",["parameters", "0", "maximum"],"type","integer","(# analog channels)",{"integer","Maximum value for numerical parameters"}} | false |
:CHANnel<n>:SCALe | {
"name": ":CHANnel<n>:SCALe",
"syntax": ":CHANnel<n>:SCALe <scale>[<suffix>]",
"query_syntax": ":CHANnel<n>:SCALe?",
"parameters": [
{
"name": "<scale>",
"type": "NR3 format",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Vertical units per division",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<suffix>",
"type": "string",
"enum": [
"V",
"mV"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Vertical units",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<n>",
"type": "NR1 format",
"enum": null,
"minimum": 1,
"maximum": "# analog channels",
"default": null,
"description": "Selects the channel",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :CHANnel<n>:SCALe command sets the vertical scale, or units per division, of the selected channel. If the probe attenuation is changed, the scale value is multiplied by the probe's attenuation factor.",
"return_format": "<scale value><NL> where <scale value> is the vertical units per division in NR3 format",
"return_format_values": null,
"examples": [
{
"description": "Set the vertical scale of channel 1 to 1 V/div",
"code": ":CHANNEL1:SCALE 1V"
}
],
"see_also": null
} | false | {"'# analog channels' is not of type 'integer'",["parameters", "2", "maximum"],"type","integer","# analog channels",{"integer","Maximum value for numerical parameters"}} | false |
:DISPlay:ANNotation | {
"name": ":DISPlay:ANNotation",
"syntax": ":DISPlay:ANNotation <setting>",
"query_syntax": ":DISPlay:ANNotation?",
"parameters": [
{
"name": "<setting>",
"type": "enum",
"enum": [
"1",
"ON",
"0",
"OFF"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Turns the annotation on and off. When on, the annotation appears in the upper left corner of the oscilloscope's display.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :DISPlay:ANNotation command turns the annotation on and off. The annotation is useful for documentation purposes, to add notes before capturing screens.",
"return_format": "<value><NL>\n<value> ::= {0 | 1}",
"return_format_values": null,
"examples": [
{
"description": "Turn on the annotation",
"code": ":DISPlay:ANNotation 1"
},
{
"description": "Turn off the annotation",
"code": ":DISPlay:ANNotation 0"
},
{
"description": "Query the annotation setting",
"code": ":DISPlay:ANNotation?"
}
],
"see_also": null
} | true | null | false |
:DISPlay:ANNotation:BACKground | {
"name": ":DISPlay:ANNotation:BACKground",
"syntax": ":DISPlay:ANNotation:BACKground <mode>",
"query_syntax": ":DISPlay:ANNotation:BACKground?",
"parameters": [
{
"name": "<mode>",
"type": "string",
"enum": [
"OPAQue",
"INVerted",
"TRANsparent"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "The background of the annotation",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :DISPlay:ANNotation:BACKground command specifies the background of the annotation. OPAQue sets a solid background, INVerted switches the foreground and background colors, and TRANsparent sets a transparent background.",
"return_format": "<mode><NL>\n<mode> ::= {OPAQ | INV | TRAN}",
"return_format_values": null,
"examples": [
{
"description": "Set the annotation background to transparent",
"code": ":DISPlay:ANNotation:BACKground TRANsparent"
}
],
"see_also": null
} | true | null | false |
:DISPlay:LABel | {
"name": ":DISPlay:LABel",
"syntax": ":DISPlay:LABel <value>",
"query_syntax": ":DISPlay:LABel?",
"parameters": [
{
"name": "<value>",
"type": "enum",
"enum": [
"1",
"ON",
"0",
"OFF"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Turns the analog channel labels on and off",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :DISPlay:LABel command turns the analog channel labels on and off.",
"return_format": "<value><NL>\n<value> ::= {0 | 1}",
"return_format_values": null,
"examples": [
{
"description": "Turn on labels",
"code": "myScope.WriteString \":DISPlay:LABel ON\""
}
],
"see_also": null
} | true | null | false |
:CHANnel<n>:RANGe | {
"name": ":CHANnel<n>:RANGe",
"syntax": ":CHANnel<n>:RANGe <range>[<suffix>]",
"query_syntax": ":CHANnel<n>:RANGe?",
"parameters": [
{
"name": "<range>",
"type": "float",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Vertical full-scale range value in NR3 format",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<suffix>",
"type": "string",
"enum": [
"V",
"mV"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Unit of the range value",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<n>",
"type": "integer",
"enum": null,
"minimum": 1,
"maximum": "# of analog channels",
"default": null,
"description": "Channel number",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :CHANnel<n>:RANGe command defines the full-scale vertical axis of the selected channel. When using 1:1 probe attenuation, legal values for the range are from 8 mV to 40 V. If the probe attenuation is changed, the range value is multiplied by the probe attenuation factor.",
"return_format": "<range_argument><NL> where <range_argument> is the vertical full-scale range value in NR3 format",
"return_format_values": null,
"examples": [
{
"description": "Set the vertical range to 8 volts",
"code": ":CHANnel1:RANGe 8"
}
],
"see_also": null
} | false | {"'# of analog channels' is not of type 'integer'",["parameters", "2", "maximum"],"type","integer","# of analog channels",{"integer","Maximum value for numerical parameters"}} | false |
:CHANnel<n>:OFFSet | {
"name": ":CHANnel<n>:OFFSet",
"syntax": ":CHANnel<n>:OFFSet <offset> [<suffix>]",
"query_syntax": ":CHANnel<n>:OFFSet?",
"parameters": [
{
"name": "<offset>",
"type": "NR3",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Vertical offset value",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<suffix>",
"type": "string",
"enum": [
"V",
"mV"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Vertical offset units",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<n>",
"type": "NR1",
"enum": null,
"minimum": 1,
"maximum": "# analog channels",
"default": null,
"description": "Channel number",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :CHANnel<n>:OFFSet command sets the value that is represented at center screen for the selected channel. The range of legal values varies with the value set by the :CHANnel<n>:RANGe and :CHANnel<n>:SCALe commands. If you set the offset to a value outside of the legal range, the offset value is automatically set to the nearest legal value. Legal values are affected by the probe attenuation setting.",
"return_format": "<offset><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set the vertical offset for channel 1",
"code": ":CHANnel1:OFFSet 1.0 V"
}
],
"see_also": null
} | false | {"'# analog channels' is not of type 'integer'",["parameters", "2", "maximum"],"type","integer","# analog channels",{"integer","Maximum value for numerical parameters"}} | false |
:DEMO:FUNCtion | {
"name": ":DEMO:FUNCtion",
"syntax": ":DEMO:FUNCtion <signal>",
"query_syntax": ":DEMO:FUNCtion?",
"parameters": [
{
"name": "<signal>",
"type": "string",
"enum": [
"SINusoid",
"NOISy",
"LFSine",
"AM",
"RFBurst",
"FMBurst",
"HARMonics",
"COUPling",
"RINGing",
"SINGle",
"CLK",
"TRANsition",
"BURSt",
"GLITch",
"CAN",
"LIN"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "The type of demo signal to be selected",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :DEMO:FUNCtion command selects the type of demo signal.",
"return_format": "<signal><NL>\n<signal> ::= {SIN | NOIS | LFS | AM | RFB | FMB | HARM | COUP | RING | SING | CLK | TRAN | BURS | GLIT | CAN | LIN}",
"return_format_values": null,
"examples": [
{
"description": "Select the SINusoid demo signal",
"code": ":DEMO:FUNCtion SINusoid"
}
],
"see_also": null
} | true | null | false |
:DISPlay:LABList | {
"name": ":DISPlay:LABList",
"syntax": ":DISPlay:LABList <binary block data>",
"query_syntax": ":DISPlay:LABList?",
"parameters": [
{
"name": "<binary block data>",
"type": "binary block",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "an ordered list of up to 75 labels, a maximum of 10 characters each, separated by newline characters",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :DISPlay:LABList command adds labels to the label list. Labels are added in alphabetical order.",
"return_format": "<binary block><NL>",
"return_format_values": null,
"examples": [
{
"description": "Add labels to the label list",
"code": ":DISPlay:LABList <binary block data>"
},
{
"description": "Query the label list",
"code": ":DISPlay:LABList?"
}
],
"see_also": null
} | true | null | false |
:DVM:CURRent? | {
"name": ":DVM:CURRent?",
"syntax": ":DVM:CURRent?",
"query_syntax": ":DVM:CURRent?",
"parameters": [],
"description": "The :DVM:CURRent? query returns the displayed 3-digit DVM value based on the current mode.",
"return_format": "<dvm_value><NL>",
"return_format_values": null,
"examples": [
{
"description": "Query the current DVM value",
"code": ":DVM:CURRent?"
}
],
"see_also": null
} | true | null | false |
:DISPlay:ANNotation:COLor | {
"name": ":DISPlay:ANNotation:COLor",
"syntax": ":DISPlay:ANNotation:COLor <color>",
"query_syntax": ":DISPlay:ANNotation:COLor?",
"parameters": [
{
"name": "<color>",
"type": "string",
"enum": [
"CH1",
"CH2",
"CH3",
"CH4",
"DIG",
"MATH",
"REF",
"MARKer",
"WHITe",
"RED"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "The color to set for the annotation",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :DISPlay:ANNotation:COLor command specifies the annotation color. You can choose white, red, or colors that match analog channels, digital channels, math waveforms, reference waveforms, or markers.",
"return_format": "<color><NL> <color> ::= {CH1 | CH2 | CH3 | CH4 | DIG | MATH | REF | MARK | WHIT | RED}",
"return_format_values": null,
"examples": [
{
"description": "Set the annotation color to red",
"code": ":DISPlay:ANNotation:COLor RED"
}
],
"see_also": null
} | true | null | false |
:DISPlay:MENU:TIMeout | {
"name": ":DISPlay:MENU:TIMeout",
"syntax": ":DISPlay:MENU:TIMeout {<value> | {OFF | MAX}}",
"query_syntax": ":DISPlay:MENU:TIMeout?",
"parameters": [
{
"name": "<value>",
"type": "integer",
"enum": null,
"minimum": 5,
"maximum": "60",
"default": null,
"description": "Sets the softkey menu timeout period",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :DISPlay:MENU:TIMeout command sets the softkey menu timeout period. OFF and MAX are equivalent.",
"return_format": "<value><NL> <value> ::= an integer from 5 to 60 in NR1 format or OFF.",
"return_format_values": null,
"examples": [
{
"description": "Set the softkey menu timeout period to 30 seconds",
"code": ":DISPlay:MENU:TIMeout 30"
},
{
"description": "Query the softkey menu timeout period",
"code": ":DISPlay:MENU:TIMeout?"
}
],
"see_also": null
} | true | null | false |
:DVM:FREQuency? | {
"name": ":DVM:FREQuency?",
"syntax": ":DVM:FREQuency?",
"query_syntax": ":DVM:FREQuency?",
"parameters": [],
"description": "The :DVM:FREQuency? query returns the displayed 5-digit frequency value that is displayed below the main DVM value.",
"return_format": "<freq_value><NL> <freq_value> ::= floating-point number in NR3 format",
"return_format_values": null,
"examples": [
{
"description": "Query the displayed frequency value",
"code": ":DVM:FREQuency?"
}
],
"see_also": null
} | true | null | false |
:EXTernal:BWLimit | {
"name": ":EXTernal:BWLimit",
"syntax": ":EXTernal:BWLimit <bwlimit>",
"query_syntax": ":EXTernal:BWLimit?",
"parameters": [
{
"name": "bwlimit",
"type": "string",
"enum": [
"0",
"OFF"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "The only legal value is 0 or OFF. Use the :TRIGger:HFReject command to limit bandwidth on the external trigger input.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :EXTernal:BWLimit command is provided for product compatibility.",
"return_format": "<bwlimit><NL> where <bwlimit> ::= 0",
"return_format_values": null,
"examples": [
{
"description": "Query the current setting of the low-pass filter",
"code": ":EXTernal:BWLimit?"
}
],
"see_also": null
} | true | null | false |
:EXTernal:DISPlay | {
"name": ":EXTernal:DISPlay",
"syntax": ":EXTernal:DISPlay {{0 | OFF} | {1 | ON}}",
"query_syntax": ":EXTernal:DISPlay?",
"parameters": [
{
"name": "setting",
"type": "enum",
"enum": [
"0",
"1",
"OFF",
"ON"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "External trigger input display setting",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "In the InfiniiVision DSOX1204A/G oscilloscopes, the :EXTernal:DISPlay command can be set to OFF only.",
"return_format": "<setting><NL>\n<setting> ::= {0 | 1}",
"return_format_values": null,
"examples": [
{
"description": "Query the external trigger input display setting",
"code": ":EXTernal:DISPlay?"
}
],
"see_also": null
} | true | null | false |
:DISPlay:INTensity:WAVeform | {
"name": ":DISPlay:INTensity:WAVeform",
"syntax": ":DISPlay:INTensity:WAVeform <value>",
"query_syntax": ":DISPlay:INTensity:WAVeform?",
"parameters": [
{
"name": "value",
"type": "integer",
"enum": null,
"minimum": 0,
"maximum": "100",
"default": null,
"description": "Waveform intensity value",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "Sets the waveform intensity. This is the same as adjusting the front panel [Intensity] knob.",
"return_format": "<value><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set the waveform intensity to 50",
"code": ":DISPlay:INTensity:WAVeform 50"
},
{
"description": "Query the waveform intensity",
"code": ":DISPlay:INTensity:WAVeform?"
}
],
"see_also": null
} | true | null | false |
:RUN | {
"name": ":RUN",
"syntax": ":RUN",
"query_syntax": "",
"parameters": [],
"description": "Starts repetitive acquisitions on the oscilloscope.",
"return_format": "",
"return_format_values": null,
"examples": [
{
"description": "Start repetitive acquisitions",
"code": ":RUN"
}
],
"see_also": null
} | false | Duplicate entry skipped | true |
:CHANnel<n>:IMPedance | {
"name": ":CHANnel<n>:IMPedance",
"syntax": ":CHANnel<n>:IMPedance <impedance>",
"query_syntax": ":CHANnel<n>:IMPedance?",
"parameters": [
{
"name": "<n>",
"type": "integer",
"enum": null,
"minimum": 1,
"maximum": "(# analog channels)",
"default": null,
"description": "Specifies the analog channel number",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<impedance>",
"type": "string",
"enum": [
"ONEMeg"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Sets the input impedance to 1 MΩ",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "Selects the input impedance setting for the specified analog channel. The only legal value for this command is ONEMeg (1 MΩ).",
"return_format": "<impedance value><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set the input impedance of channel 1 to 1 MΩ",
"code": ":CHANnel1:IMPedance ONEMeg"
},
{
"description": "Query the input impedance of channel 1",
"code": ":CHANnel1:IMPedance?"
}
],
"see_also": null
} | false | {"'(# analog channels)' is not of type 'integer'",["parameters", "0", "maximum"],"type","integer","(# analog channels)",{"integer","Maximum value for numerical parameters"}} | false |
:CHANnel<n>:INVert | {
"name": ":CHANnel<n>:INVert",
"syntax": ":CHANnel<n>:INVert <invert value>",
"query_syntax": ":CHANnel<n>:INVert?",
"parameters": [
{
"name": "<n>",
"type": "integer",
"enum": null,
"minimum": 1,
"maximum": "(# analog channels)",
"default": null,
"description": "Specifies the analog channel number",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<invert value>",
"type": "integer",
"enum": [
"0",
"1"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Selects whether or not to invert the input signal for the specified channel. 1 (ON/inverted) or 0 (OFF/not inverted)",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "Selects whether or not to invert the input signal for the specified channel.",
"return_format": "<invert value><NL>",
"return_format_values": null,
"examples": [
{
"description": "Invert the input signal for channel 1",
"code": ":CHANnel1:INVert 1"
},
{
"description": "Query the inversion state of channel 1",
"code": ":CHANnel1:INVert?"
}
],
"see_also": null
} | false | {"'(# analog channels)' is not of type 'integer'",["parameters", "0", "maximum"],"type","integer","(# analog channels)",{"integer","Maximum value for numerical parameters"}} | false |
:DVM:ARANge | {
"name": ":DVM:ARANge",
"syntax": ":DVM:ARANge <setting>",
"query_syntax": ":DVM:ARANge?",
"parameters": [
{
"name": "<setting>",
"type": "string",
"enum": [
"OFF",
"0",
"ON",
"1"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Turns the digital voltmeter's Auto Range capability on or off",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "If the selected digital voltmeter (DVM) source channel is not used in oscilloscope triggering, the :DVM:ARANge command turns the digital voltmeter's Auto Range capability on or off. When on, the DVM channel's vertical scale, vertical (ground level) position, and trigger (threshold voltage) level (used for the counter frequency measurement) are automatically adjusted. The Auto Range capability overrides attempted adjustments of the channel's vertical scale and position. When off, you can adjust the channel's vertical scale and position normally.",
"return_format": "<setting><NL>\n<setting> ::= {0 | 1}",
"return_format_values": null,
"examples": [
{
"description": "Turn on the digital voltmeter's Auto Range capability",
"code": ":DVM:ARANge ON"
},
{
"description": "Turn off the digital voltmeter's Auto Range capability",
"code": ":DVM:ARANge OFF"
}
],
"see_also": null
} | true | null | false |
:CHANnel<n>:PROBe:SKEW | {
"name": ":CHANnel<n>:PROBe:SKEW",
"syntax": ":CHANnel<n>:PROBe:SKEW <skew value>",
"query_syntax": ":CHANnel<n>:PROBe:SKEW?",
"parameters": [
{
"name": "<skew value>",
"type": "NR3 format",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Skew time in NR3 format, range: -100 ns to +100 ns",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "<n>",
"type": "NR1 format",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Channel number, range: 1 to (# of analog channels)",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "Sets the channel-to-channel skew factor for the specified channel. Each analog channel can be adjusted + or -100 ns for a total of 200 ns difference between channels. You can use the oscilloscope's probe skew control to remove cable-delay errors between channels.",
"return_format": "<skew value><NL>, where <skew value> is the skew value in NR3 format.",
"return_format_values": null,
"examples": [
{
"description": "Set the probe skew for channel 1 to 10 ns",
"code": ":CHANnel1:PROBe:SKEW 10e-9"
}
],
"see_also": null
} | true | null | false |
:DVM:ENABle | {
"name": ":DVM:ENABle",
"syntax": ":DVM:ENABle <setting>",
"query_syntax": ":DVM:ENABle?",
"parameters": [
{
"name": "<setting>",
"type": "enum",
"enum": [
"OFF",
"0",
"ON",
"1"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Turns the digital voltmeter (DVM) analysis feature on or off",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :DVM:ENABle command turns the digital voltmeter (DVM) analysis feature on or off.",
"return_format": "<setting><NL>",
"return_format_values": null,
"examples": [
{
"description": "Turn on the digital voltmeter (DVM) analysis feature",
"code": ":DVM:ENABle ON"
},
{
"description": "Turn off the digital voltmeter (DVM) analysis feature",
"code": ":DVM:ENABle OFF"
}
],
"see_also": null
} | true | null | false |
:EXTernal:LABel | {
"name": ":EXTernal:LABel",
"syntax": ":EXTernal:LABel <string> <string>",
"query_syntax": ":EXTernal:LABel?",
"parameters": [
{
"name": "<string>",
"type": "quoted ASCII string",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Label strings are 10 characters or less, and may contain any commonly used ASCII characters. Labels with more than 10 characters are truncated to 10 characters. Lower case characters are converted to upper case.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :EXTernal:LABel command sets the external trigger input's label. Setting a label for the external waveform also adds the name to the label list in non-volatile memory (replacing the oldest label in the list).",
"return_format": "<string><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set the external trigger input label",
"code": ":EXTernal:LABel \"LABEL_NAME\""
}
],
"see_also": null
} | true | null | false |
:DISPlay:TRANsparent | {
"name": ":DISPlay:TRANsparent",
"syntax": ":DISPlay:TRANsparent <setting>",
"query_syntax": ":DISPlay:TRANsparent?",
"parameters": [
{
"name": "<setting>",
"type": "enum",
"enum": [
"0",
"OFF",
"1",
"ON"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Enables or disables transparent mode for DVM, mask test statistics, and waveform memory readouts in the front panel graphical user interface.",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :DISPlay:TRANsparent command enables or disables transparent mode for DVM, mask test statistics, and waveform memory readouts in the front panel graphical user interface. This command maps to the Transparent softkey that appears in the front panel user interface under [Utility] > Options > Preferences and in the menus for DVM, mask testing, and waveform memory. Note that annotations and remote logging have separate transparency controls (:DISPlay:ANNotation:BACKground and :SYSTem:RLOGger:TRANsparent).",
"return_format": "<setting><NL> <setting> ::= {0 | 1}",
"return_format_values": null,
"examples": [
{
"description": "Enable transparent mode",
"code": ":DISPlay:TRANsparent ON"
},
{
"description": "Disable transparent mode",
"code": ":DISPlay:TRANsparent OFF"
}
],
"see_also": null
} | true | null | false |
:DVM:MODE | {
"name": ":DVM:MODE",
"syntax": ":DVM:MODE <dvm_mode>",
"query_syntax": ":DVM:MODE?",
"parameters": [
{
"name": "<dvm_mode>",
"type": "string",
"enum": [
"ACRMs",
"DC",
"DCRMs",
"FREQuency"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "The DVM mode to set",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :DVM:MODE command sets the digital voltmenter (DVM) mode:\n- ACRMs - displays the root-mean-square value of the acquired data, with the DC component removed.\n- DC - displays the DC value of the acquired data.\n- DCRMs - displays the root-mean-square value of the acquired data.\n- FREQuency - displays the frequency counter measurement. Requires the EDGE or GLITch trigger mode, and the DVM source and the trigger source must be the same analog channel.",
"return_format": "<dvm_mode><NL> where <dvm_mode> is one of {ACRM, DC, DCRM, FREQ}",
"return_format_values": null,
"examples": [
{
"description": "Set the DVM mode to AC RMS",
"code": ":DVM:MODE ACRMs"
}
],
"see_also": null
} | true | null | false |
:EXTernal:LEVel | {
"name": ":EXTernal:LEVel",
"syntax": ":EXTernal:LEVel <level>[<suffix>]",
"query_syntax": ":EXTernal:LEVel?",
"parameters": [
{
"name": "level",
"type": "NR3",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "external trigger level value",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "suffix",
"type": "string",
"enum": [
"V",
"mV"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "unit of the trigger level value",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :EXTernal:LEVel command sets the external trigger input threshold (trigger) voltage level.",
"return_format": "<value><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set the external trigger level to 1.5V",
"code": ":EXTernal:LEVel 1.5V"
}
],
"see_also": null
} | true | null | false |
:FFT:RANGe | {
"name": ":FFT:RANGe",
"syntax": ":FFT:RANGe <range>",
"query_syntax": ":FFT:RANGe?",
"parameters": [
{
"name": "<range>",
"type": "NR3",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "The full-scale vertical axis value",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :FFT:RANGe command defines the full-scale vertical axis for the FFT function.",
"return_format": "<range><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set the full-scale vertical axis value for the FFT function",
"code": ":FFT:RANGe <range>"
},
{
"description": "Query the current full-scale vertical axis value for the FFT function",
"code": ":FFT:RANGe?"
}
],
"see_also": null
} | true | null | false |
:FFT:OFFSet | {
"name": ":FFT:OFFSet",
"syntax": ":FFT:OFFSet <offset>",
"query_syntax": ":FFT:OFFSet?",
"parameters": [
{
"name": "<offset>",
"type": "NR3",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "the value at center screen",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :FFT:OFFSet command specifies the FFT vertical value represented at center screen. If you set the offset to a value outside of the legal range, the offset value is automatically set to the nearest legal value.",
"return_format": "<offset><NL>",
"return_format_values": null,
"examples": [
{
"description": "Get the current offset value for the FFT function",
"code": ":FFT:OFFSet?"
}
],
"see_also": null
} | true | null | false |
:FFT:REFerence | {
"name": ":FFT:REFerence",
"syntax": ":FFT:REFerence <level>",
"query_syntax": ":FFT:REFerence?",
"parameters": [
{
"name": "<level>",
"type": "NR3",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "The current reference level in NR3 format",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :FFT:REFerence command specifies the FFT vertical value represented at center screen. If you set the reference level to a value outside of the legal range, the level is automatically set to the nearest legal value.",
"return_format": "<level><NL> where <level> is the current reference level in NR3 format",
"return_format_values": null,
"examples": [
{
"description": "Query the current reference level",
"code": ":FFT:REFerence?"
}
],
"see_also": null
} | true | null | false |
:EXTernal:PROBe | {
"name": ":EXTernal:PROBe",
"syntax": ":EXTernal:PROBe <attenuation>",
"query_syntax": ":EXTernal:PROBe?",
"parameters": [
{
"name": "<attenuation>",
"type": "NR3",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Probe attenuation ratio",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :EXTernal:PROBe command specifies the probe attenuation factor for the external trigger. The probe attenuation factor may be 0.1 to 10000. This command does not change the actual input sensitivity of the oscilloscope. It changes the reference constants for scaling the display factors and for setting trigger levels. If an AutoProbe probe is connected to the oscilloscope, the attenuation value cannot be changed from the sensed value. Attempting to set the oscilloscope to an attenuation value other than the sensed value produces an error.",
"return_format": "<attenuation><NL> <attenuation> ::= probe attenuation ratio in NR3 format",
"return_format_values": null,
"examples": [
{
"description": "Set the external trigger probe attenuation to 10",
"code": ":EXTernal:PROBe 10"
}
],
"see_also": null
} | true | null | false |
:EXTernal:POSition | {
"name": ":EXTernal:POSition",
"syntax": ":EXTernal:POSition <value>",
"query_syntax": ":EXTernal:POSition?",
"parameters": [
{
"name": "value",
"type": "number",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "Ext Trig waveform vertical position in divisions in NR3 format",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "The :EXTernal:POSition command sets the external trigger input waveform's vertical position on the oscilloscope display. When the external trigger input's waveform is displayed (see :EXTernal:DISPlay), a cyan digital waveform, based on the :EXTernal:LEVel threshold voltage, appears on the oscilloscope display. This waveform is one division tall, and the base of the waveform can be positioned from -3.5 divisions to 2.5 divisions. In the InfiniiVision DSOX1204A/G oscilloscopes, the :EXTernal:POSition command can be set to zero only (since the Ext Trig input cannot be displayed as a digital waveform).",
"return_format": "<value><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set the external trigger input waveform's vertical position",
"code": ":EXTernal:POSition <value>"
},
{
"description": "Query the external trigger input waveform's vertical position",
"code": ":EXTernal:POSition?"
}
],
"see_also": null
} | true | null | false |
:ACQuire:TYPE | {
"name": ":ACQuire:TYPE",
"syntax": ":ACQuire:TYPE <type>",
"query_syntax": ":ACQuire:TYPE?",
"parameters": [
{
"name": "type",
"type": "string",
"enum": [
"NORMal",
"AVERage",
"HRESolution",
"PEAK"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "The acquisition type",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "Selects the type of data acquisition that is to take place.",
"return_format": "<acq_type><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set the acquisition type to normal mode",
"code": ":ACQuire:TYPE NORMal"
}
],
"see_also": null
} | true | null | false |
:CALibrate:DATE? | {
"name": ":CALibrate:DATE?",
"syntax": "",
"query_syntax": ":CALibrate:DATE?",
"parameters": [],
"description": "Returns the date of the last calibration",
"return_format": "<year>,<month>,<day>; all in NR1 format",
"return_format_values": null,
"examples": [],
"see_also": null
} | false | Duplicate entry skipped | true |
:CALibrate:LABel | {
"name": ":CALibrate:LABel",
"syntax": ":CALibrate:LABel <string>",
"query_syntax": ":CALibrate:LABel?",
"parameters": [
{
"name": "string",
"type": "string",
"enum": null,
"minimum": null,
"maximum": null,
"default": null,
"description": "A quoted ASCII string up to 32 characters",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "Sets or queries the calibration label string",
"return_format": "<string>",
"return_format_values": null,
"examples": [],
"see_also": null
} | false | Duplicate entry skipped | true |
:CALibrate:OUTPut | {
"name": ":CALibrate:OUTPut",
"syntax": ":CALibrate:OUTPut <signal>",
"query_syntax": ":CALibrate:OUTPut?",
"parameters": [
{
"name": "signal",
"type": "string",
"enum": [
"TRIGgers",
"MASK",
"WAVEgen"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "The signal to be output during calibration",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "Sets or queries the calibration output signal",
"return_format": "<signal>",
"return_format_values": null,
"examples": [],
"see_also": null
} | false | Duplicate entry skipped | true |
:CALibrate:PROTected? | {
"name": ":CALibrate:PROTected?",
"syntax": "",
"query_syntax": ":CALibrate:PROTected?",
"parameters": [],
"description": "Queries the state of the calibration factor protection switch",
"return_format": "\"PROTected\" | \"UNPRotected\"",
"return_format_values": null,
"examples": [],
"see_also": null
} | false | Duplicate entry skipped | true |
:CALibrate:STARt | {
"name": ":CALibrate:STARt",
"syntax": ":CALibrate:STARt",
"query_syntax": "",
"parameters": [],
"description": "Starts the user calibration procedure",
"return_format": "",
"return_format_values": null,
"examples": [],
"see_also": null
} | false | Duplicate entry skipped | true |
:CALibrate:STATus? | {
"name": ":CALibrate:STATus?",
"syntax": "",
"query_syntax": ":CALibrate:STATus?",
"parameters": [],
"description": "Queries the calibration status",
"return_format": "<status_code>,<status_string>",
"return_format_values": null,
"examples": [],
"see_also": null
} | false | Duplicate entry skipped | true |
:CALibrate:TEMPerature? | {
"name": ":CALibrate:TEMPerature?",
"syntax": "",
"query_syntax": ":CALibrate:TEMPerature?",
"parameters": [],
"description": "Queries the change in temperature since the last calibration",
"return_format": "<return value> ::= degrees C delta since last cal in NR3 format",
"return_format_values": null,
"examples": [],
"see_also": null
} | false | Duplicate entry skipped | true |
:CALibrate:TIME? | {
"name": ":CALibrate:TIME?",
"syntax": "",
"query_syntax": ":CALibrate:TIME?",
"parameters": [],
"description": "Queries the time of the last calibration",
"return_format": "<hours>,<minutes>,<seconds>; all in NR1 format",
"return_format_values": null,
"examples": [],
"see_also": null
} | true | null | false |
:DISPlay:PERSistence | {
"name": ":DISPlay:PERSistence",
"syntax": ":DISPlay:PERSistence <value>",
"query_syntax": ":DISPlay:PERSistence?",
"parameters": [
{
"name": "value",
"type": "string",
"enum": [
"MINimum",
"INFinite"
],
"minimum": null,
"maximum": null,
"default": null,
"description": "Persistence setting",
"unit": null,
"suffix": {
"enum": null
},
"format": null
},
{
"name": "time",
"type": "number",
"enum": null,
"minimum": 0.1,
"maximum": "60",
"default": null,
"description": "Variable persistence time in seconds",
"unit": null,
"suffix": {
"enum": null
},
"format": null
}
],
"description": "Specifies the persistence setting. MINimum indicates zero persistence, INFinite indicates infinite persistence, and <time> specifies the variable persistence time in seconds.",
"return_format": "<value><NL>",
"return_format_values": null,
"examples": [
{
"description": "Set persistence to infinite",
"code": ":DISPlay:PERSistence INFinite"
},
{
"description": "Set persistence to 5 seconds",
"code": ":DISPlay:PERSistence 5"
}
],
"see_also": null
} | false | {"0.1 is not of type 'integer'",["parameters", "1", "minimum"],"type","integer",0.1,{"integer","Minimum value for numerical parameters"}} | false |
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